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CSCAnodeLCTProcessor Class Reference

#include <CSCAnodeLCTProcessor.h>

Public Types

enum  { MAX_ALCT_BINS = 16 }
 
enum  { NUM_PATTERN_WIRES = 14 }
 

Public Member Functions

void clear ()
 
 CSCAnodeLCTProcessor (unsigned endcap, unsigned station, unsigned sector, unsigned subsector, unsigned chamber, const edm::ParameterSet &conf, const edm::ParameterSet &comm)
 
 CSCAnodeLCTProcessor ()
 
std::vector< CSCALCTDigigetALCTs ()
 
bool getDigis (const CSCWireDigiCollection *wiredc)
 
void getDigis (const CSCWireDigiCollection *wiredc, const CSCDetId &id)
 
std::vector< CSCALCTDigireadoutALCTs ()
 
std::vector< CSCALCTDigirun (const CSCWireDigiCollection *wiredc)
 
void run (const std::vector< int > wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])
 
void setConfigParameters (const CSCDBL1TPParameters *conf)
 
void setRing (unsigned r)
 

Public Attributes

CSCALCTDigi bestALCT [MAX_ALCT_BINS]
 
CSCALCTDigi secondALCT [MAX_ALCT_BINS]
 

Static Public Attributes

static const int pattern_envelope [CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
 
static const int pattern_mask_open [CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
 
static const int pattern_mask_r1 [CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
 
static const int pattern_mask_slim [CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
 
static const int time_weights [NUM_PATTERN_WIRES]
 

Private Member Functions

void accelMode (const int key_wire)
 
std::vector< CSCALCTDigibestTrackSelector (const std::vector< CSCALCTDigi > &all_alcts)
 
void checkConfigParameters ()
 
void clear (const int wire, const int pattern)
 
void dumpConfigParams () const
 
void dumpDigis (const std::vector< int > wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]) const
 
void ghostCancellationLogic ()
 
void ghostCancellationLogicSLHC ()
 
bool isBetterALCT (const CSCALCTDigi &lhsALCT, const CSCALCTDigi &rhsALCT)
 
void lctSearch ()
 
void loadPatternMask ()
 
bool patternDetection (const int key_wire)
 
bool preTrigger (const int key_wire, const int start_bx)
 
bool pulseExtension (const std::vector< int > wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])
 
void readWireDigis (std::vector< int > wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])
 
void setDefaultConfigParameters ()
 
void showPatterns (const int key_wire)
 
void trigMode (const int key_wire)
 

Private Attributes

unsigned int accel_mode
 
std::vector< CSCWireDigidigiV [CSCConstants::NUM_LAYERS]
 
bool disableME1a
 
unsigned int drift_delay
 
int early_tbins
 
unsigned int fifo_pretrig
 
unsigned int fifo_tbins
 
int first_bx [CSCConstants::MAX_NUM_WIRES]
 
int first_bx_corrected [CSCConstants::MAX_NUM_WIRES]
 
int ghost_cancellation_bx_depth
 
bool ghost_cancellation_side_quality
 
unsigned int hit_persist
 
int infoV
 
bool isME11
 
bool isMTCC
 
bool isSLHC
 
bool isTMB07
 
unsigned int l1a_window_width
 
int MESelection
 
bool narrow_mask_r1
 
unsigned int nplanes_hit_accel_pattern
 
unsigned int nplanes_hit_accel_pretrig
 
unsigned int nplanes_hit_pattern
 
unsigned int nplanes_hit_pretrig
 
int numWireGroups
 
int pattern_mask [CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
 
unsigned int pretrig_extra_deadtime
 
unsigned int pulse [CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]
 
int quality [CSCConstants::MAX_NUM_WIRES][3]
 
bool runME21ILT_
 
bool runME3141ILT_
 
unsigned theChamber
 
const unsigned theEndcap
 
unsigned theRing
 
const unsigned theSector
 
const unsigned theStation
 
const unsigned theSubsector
 
const unsigned theTrigChamber
 
unsigned int trig_mode
 
bool use_corrected_bx
 

Static Private Attributes

static const unsigned int def_accel_mode = 0
 
static const unsigned int def_drift_delay = 2
 
static const unsigned int def_fifo_pretrig = 10
 
static const unsigned int def_fifo_tbins = 16
 
static const unsigned int def_l1a_window_width = 7
 
static const unsigned int def_nplanes_hit_accel_pattern = 4
 
static const unsigned int def_nplanes_hit_accel_pretrig = 2
 
static const unsigned int def_nplanes_hit_pattern = 4
 
static const unsigned int def_nplanes_hit_pretrig = 2
 
static const unsigned int def_trig_mode = 2
 

Detailed Description

This class simulates the functionality of the anode LCT card. It is run by the MotherBoard and returns up to two AnodeLCTs. It can be run either in a test mode, where it is passed an array of wire times, or in normal mode where it determines the wire times from the wire digis.

Author
Benn Tannenbaum benn@.nosp@m.phys.nosp@m.ics.u.nosp@m.cla..nosp@m.edu 13 July 1999 Numerous later improvements by Jason Mumford and Slava Valuev (see cvs in ORCA). Porting from ORCA by S. Valuev (Slava.nosp@m..Val.nosp@m.uev@c.nosp@m.ern..nosp@m.ch), May 2006.

Definition at line 27 of file CSCAnodeLCTProcessor.h.

Member Enumeration Documentation

anonymous enum

Maximum number of time bins reported in the ALCT readout.

Enumerator
MAX_ALCT_BINS 

Definition at line 58 of file CSCAnodeLCTProcessor.h.

anonymous enum

Pre-defined patterns.

Enumerator
NUM_PATTERN_WIRES 

Definition at line 80 of file CSCAnodeLCTProcessor.h.

Constructor & Destructor Documentation

CSCAnodeLCTProcessor::CSCAnodeLCTProcessor ( unsigned  endcap,
unsigned  station,
unsigned  sector,
unsigned  subsector,
unsigned  chamber,
const edm::ParameterSet conf,
const edm::ParameterSet comm 
)

Normal constructor.

Definition at line 184 of file CSCAnodeLCTProcessor.cc.

References accel_mode, CSCTriggerNumbering::chamberFromTriggerLabels(), checkConfigParameters(), disableME1a, drift_delay, dumpConfigParams(), early_tbins, edm::ParameterSet::existsAs(), fifo_pretrig, fifo_tbins, edm::ParameterSet::getParameter(), ghost_cancellation_bx_depth, ghost_cancellation_side_quality, hit_persist, infoV, isME11, isMTCC, isSLHC, isTMB07, l1a_window_width, loadPatternMask(), MESelection, narrow_mask_r1, nplanes_hit_accel_pattern, nplanes_hit_accel_pretrig, nplanes_hit_pattern, nplanes_hit_pretrig, numWireGroups, pretrig_extra_deadtime, CSCTriggerNumbering::ringFromTriggerLabels(), runME21ILT_, runME3141ILT_, theChamber, theRing, theSector, theStation, theSubsector, theTrigChamber, trig_mode, and use_corrected_bx.

188  :
190  theSubsector(subsector), theTrigChamber(chamber) {
191  static bool config_dumped = false;
192 
193  // ALCT configuration parameters.
194  fifo_tbins = conf.getParameter<unsigned int>("alctFifoTbins");
195  fifo_pretrig = conf.getParameter<unsigned int>("alctFifoPretrig");
196  drift_delay = conf.getParameter<unsigned int>("alctDriftDelay");
198  conf.getParameter<unsigned int>("alctNplanesHitPretrig");
200  conf.getParameter<unsigned int>("alctNplanesHitPattern");
202  conf.getParameter<unsigned int>("alctNplanesHitAccelPretrig");
204  conf.getParameter<unsigned int>("alctNplanesHitAccelPattern");
205  trig_mode = conf.getParameter<unsigned int>("alctTrigMode");
206  accel_mode = conf.getParameter<unsigned int>("alctAccelMode");
207  l1a_window_width = conf.getParameter<unsigned int>("alctL1aWindowWidth");
208 
209  hit_persist = conf.getParameter<unsigned int>("alctHitPersist");
210 
211  // Verbosity level, set to 0 (no print) by default.
212  infoV = conf.getParameter<int>("verbosity");
213 
214  // Other parameters.
215  // Use open pattern instead of more restrictive (slim) ones.
216  isMTCC = comm.getParameter<bool>("isMTCC");
217  // Use TMB07 flag for DAQ-2006 firmware version (implemented in late 2007).
218  isTMB07 = comm.getParameter<bool>("isTMB07");
219 
220  // Flag for SLHC studies
221  isSLHC = comm.getParameter<bool>("isSLHC");
222 
223  // special configuration parameters for ME11 treatment
224  disableME1a = comm.getParameter<bool>("disableME1a");
225 
226  // separate handle for early time bins
227  early_tbins = conf.getParameter<int>("alctEarlyTbins");
228  int fpga_latency = 6;
229  if (early_tbins<0) early_tbins = fifo_pretrig - fpga_latency;
230 
231  // delta BX time depth for ghostCancellationLogic
232  ghost_cancellation_bx_depth = conf.getParameter<int>("alctGhostCancellationBxDepth");
233 
234  // whether to consider ALCT candidates' qualities while doing ghostCancellationLogic on +-1 wire groups
235  ghost_cancellation_side_quality = conf.getParameter<bool>("alctGhostCancellationSideQuality");
236 
237  // deadtime clocks after pretrigger (extra in addition to drift_delay)
238  pretrig_extra_deadtime = conf.getParameter<unsigned int>("alctPretrigDeadtime");
239 
240  // whether to use narrow pattern mask for the rings close to the beam
241  narrow_mask_r1 = conf.getParameter<bool>("alctNarrowMaskForR1");
242 
243  // Check and print configuration parameters.
245  if ((infoV > 0 || isSLHC) && !config_dumped) {
246  //std::cout<<"**** ALCT constructor parameters dump ****"<<std::endl;
248  config_dumped = true;
249  }
250 
251  numWireGroups = 0; // Will be set later.
252  MESelection = (theStation < 3) ? 0 : 1;
253 
255 
258 
259  // trigger numbering doesn't distinguish between ME1a and ME1b chambers:
260  isME11 = (theStation == 1 && theRing == 1);
261 
262  // whether to calculate bx as corrected_bx instead of pretrigger one
263  use_corrected_bx = false;
264  if (isSLHC && isME11) {
265  use_corrected_bx = conf.getParameter<bool>("alctUseCorrectedBx");
266  }
267 
268  // run the ALCT processor for the Phase-II ME2/1 integrated local trigger
269  runME21ILT_ = conf.existsAs<bool>("runME21ILT")?
270  conf.getParameter<bool>("runME21ILT"):false;
271 
272  // run the ALCT processor for the Phase-II ME3/1-ME4/1 integrated local trigger
273  runME3141ILT_ = conf.existsAs<bool>("runME3141ILT")?
274  conf.getParameter<bool>("runME3141ILT"):false;
275 
276  //if (theStation==1 && theRing==2) infoV = 3;
277 
278  // Load appropriate pattern mask.
279  loadPatternMask();
280 }
T getParameter(std::string const &) const
bool existsAs(std::string const &parameterName, bool trackiness=true) const
checks if a parameter exists as a given type
Definition: ParameterSet.h:186
const unsigned theTrigChamber
static int ringFromTriggerLabels(int station, int triggerCSCID)
unsigned int nplanes_hit_accel_pattern
unsigned int pretrig_extra_deadtime
static int chamberFromTriggerLabels(int TriggerSector, int TriggerSubSector, int station, int TriggerCSCID)
unsigned int nplanes_hit_accel_pretrig
CSCAnodeLCTProcessor::CSCAnodeLCTProcessor ( )

Default constructor. Used for testing.

Definition at line 282 of file CSCAnodeLCTProcessor.cc.

References CSCTriggerNumbering::chamberFromTriggerLabels(), checkConfigParameters(), disableME1a, dumpConfigParams(), early_tbins, infoV, isME11, isMTCC, isSLHC, isTMB07, loadPatternMask(), CSCConstants::MAX_NUM_WIRES, MESelection, numWireGroups, CSCTriggerNumbering::ringFromTriggerLabels(), setDefaultConfigParameters(), theChamber, theRing, theSector, theStation, theSubsector, and theTrigChamber.

282  :
283  theEndcap(1), theStation(1), theSector(1),
285  // Used for debugging. -JM
286  static bool config_dumped = false;
287 
288  // ALCT parameters.
290  infoV = 2;
291  isMTCC = false;
292  isTMB07 = true;
293 
294  isSLHC = false;
295  disableME1a = false;
296 
297  early_tbins = 4;
298 
299  // Check and print configuration parameters.
301  if (!config_dumped) {
302  //std::cout<<"**** ALCT default constructor parameters dump ****"<<std::endl;
304  config_dumped = true;
305  }
306 
308  MESelection = (theStation < 3) ? 0 : 1;
309 
313  isME11 = (theStation == 1 && theRing == 1);
314 
315  // Load pattern mask.
316  loadPatternMask();
317 }
const unsigned theTrigChamber
static int ringFromTriggerLabels(int station, int triggerCSCID)
static int chamberFromTriggerLabels(int TriggerSector, int TriggerSubSector, int station, int TriggerCSCID)

Member Function Documentation

void CSCAnodeLCTProcessor::accelMode ( const int  key_wire)
private

Definition at line 1516 of file CSCAnodeLCTProcessor.cc.

References accel_mode, infoV, LogTrace, and quality.

Referenced by lctSearch().

1516  {
1517  /* Function which gives a preference either to the collision patterns
1518  or accelerator patterns. The function uses the accel_mode parameter
1519  to decide. */
1520  int promotionBit = 1 << 2;
1521 
1522  switch(accel_mode) {
1523  default:
1524  case 0:
1525  // Ignore accelerator muons.
1526  if (quality[key_wire][0] > 0) {
1527  quality[key_wire][0] = 0;
1528  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1529  << "alctMode(): accelerator track " << key_wire << " ignored" << "\n";
1530  }
1531  break;
1532  case 1:
1533  // Prefer collision muons by adding promotion bit.
1534  if (quality[key_wire][1] > 0) {
1535  quality[key_wire][1] += promotionBit;
1536  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1537  << "alctMode(): collision track " << key_wire << " promoted" << "\n";
1538  }
1539  break;
1540  case 2:
1541  // Prefer accelerator muons by adding promotion bit.
1542  if (quality[key_wire][0] > 0) {
1543  quality[key_wire][0] += promotionBit;
1544  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1545  << "alctMode(): accelerator track " << key_wire << " promoted"<< "\n";
1546  }
1547  break;
1548  case 3:
1549  // Ignore collision muons.
1550  if (quality[key_wire][1] > 0) {
1551  quality[key_wire][1] = 0;
1552  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1553  << "alctMode(): collision track " << key_wire << " ignored" << "\n";
1554  }
1555  break;
1556  }
1557 }
int quality[CSCConstants::MAX_NUM_WIRES][3]
#define LogTrace(id)
std::vector< CSCALCTDigi > CSCAnodeLCTProcessor::bestTrackSelector ( const std::vector< CSCALCTDigi > &  all_alcts)
private

Definition at line 1346 of file CSCAnodeLCTProcessor.cc.

References CSCALCTDigi::getBX(), CSCALCTDigi::getKeyWG(), CSCALCTDigi::getQuality(), i, infoV, CSCALCTDigi::isValid(), LogTrace, and MAX_ALCT_BINS.

Referenced by lctSearch().

1347  {
1348  /* Selects two collision and two accelerator ALCTs per time bin with
1349  the best quality. */
1350  CSCALCTDigi bestALCTs[MAX_ALCT_BINS][2], secondALCTs[MAX_ALCT_BINS][2];
1351 
1352  if (infoV > 1) {
1353  LogTrace("CSCAnodeLCTProcessor") << all_alcts.size() <<
1354  " ALCTs at the input of best-track selector: ";
1355  for (std::vector <CSCALCTDigi>::const_iterator plct = all_alcts.begin();
1356  plct != all_alcts.end(); plct++) {
1357  if (!plct->isValid()) continue;
1358  LogTrace("CSCAnodeLCTProcessor") << (*plct);
1359  }
1360  }
1361 
1362  CSCALCTDigi tA[MAX_ALCT_BINS][2], tB[MAX_ALCT_BINS][2];
1363  for (std::vector <CSCALCTDigi>::const_iterator plct = all_alcts.begin();
1364  plct != all_alcts.end(); plct++) {
1365  if (!plct->isValid()) continue;
1366 
1367  // Select two collision and two accelerator ALCTs with the highest
1368  // quality at every bx. The search for best ALCTs is done in parallel
1369  // for collision and accelerator patterns, and simultaneously for
1370  // two ALCTs, tA and tB. If two or more ALCTs have equal qualities,
1371  // the priority is given to the ALCT with larger wiregroup number
1372  // in the search for tA (collision and accelerator), and to the ALCT
1373  // with smaller wiregroup number in the search for tB.
1374  int bx = (*plct).getBX();
1375  int accel = (*plct).getAccelerator();
1376  int qual = (*plct).getQuality();
1377  int wire = (*plct).getKeyWG();
1378  bool vA = tA[bx][accel].isValid();
1379  bool vB = tB[bx][accel].isValid();
1380  int qA = tA[bx][accel].getQuality();
1381  int qB = tB[bx][accel].getQuality();
1382  int wA = tA[bx][accel].getKeyWG();
1383  int wB = tB[bx][accel].getKeyWG();
1384  if (!vA || qual > qA || (qual == qA && wire > wA)) {
1385  tA[bx][accel] = *plct;
1386  }
1387  if (!vB || qual > qB || (qual == qB && wire < wB)) {
1388  tB[bx][accel] = *plct;
1389  }
1390  }
1391 
1392  for (int bx = 0; bx < MAX_ALCT_BINS; bx++) {
1393  for (int accel = 0; accel <= 1; accel++) {
1394  // Best ALCT is always tA.
1395  if (tA[bx][accel].isValid()) {
1396  if (infoV > 2) {
1397  LogTrace("CSCAnodeLCTProcessor") << "tA: " << tA[bx][accel];
1398  LogTrace("CSCAnodeLCTProcessor") << "tB: " << tB[bx][accel];
1399  }
1400  bestALCTs[bx][accel] = tA[bx][accel];
1401 
1402  // If tA exists, tB exists too.
1403  if (tA[bx][accel] != tB[bx][accel] &&
1404  tA[bx][accel].getQuality() == tB[bx][accel].getQuality()) {
1405  secondALCTs[bx][accel] = tB[bx][accel];
1406  }
1407  else {
1408  // Funny part: if tA and tB are the same, or the quality of tB
1409  // is inferior to the quality of tA, the second best ALCT is
1410  // not tB. Instead it is the largest-wiregroup ALCT among those
1411  // ALCT whose qualities are lower than the quality of the best one.
1412  for (std::vector <CSCALCTDigi>::const_iterator plct =
1413  all_alcts.begin(); plct != all_alcts.end(); plct++) {
1414  if ((*plct).isValid() &&
1415  (*plct).getAccelerator() == accel && (*plct).getBX() == bx &&
1416  (*plct).getQuality() < bestALCTs[bx][accel].getQuality() &&
1417  (*plct).getQuality() >= secondALCTs[bx][accel].getQuality() &&
1418  (*plct).getKeyWG() >= secondALCTs[bx][accel].getKeyWG()) {
1419  secondALCTs[bx][accel] = *plct;
1420  }
1421  }
1422  }
1423  }
1424  }
1425  }
1426 
1427  // Fill the vector with up to four best ALCTs per bx and return it.
1428  std::vector<CSCALCTDigi> fourBest;
1429  for (int bx = 0; bx < MAX_ALCT_BINS; bx++) {
1430  for (int i = 0; i < 2; i++) {
1431  if (bestALCTs[bx][i].isValid()) fourBest.push_back(bestALCTs[bx][i]);
1432  }
1433  for (int i = 0; i < 2; i++) {
1434  if (secondALCTs[bx][i].isValid()) fourBest.push_back(secondALCTs[bx][i]);
1435  }
1436  }
1437 
1438  if (infoV > 1) {
1439  LogTrace("CSCAnodeLCTProcessor") << fourBest.size() << " ALCTs selected: ";
1440  for (std::vector<CSCALCTDigi>::const_iterator plct = fourBest.begin();
1441  plct != fourBest.end(); plct++) {
1442  LogTrace("CSCAnodeLCTProcessor") << (*plct);
1443  }
1444  }
1445 
1446  return fourBest;
1447 }
int i
Definition: DBlmapReader.cc:9
bool isValid() const
check ALCT validity (1 - valid ALCT)
Definition: CSCALCTDigi.h:30
#define LogTrace(id)
int getBX() const
return BX - five low bits of BXN counter tagged by the ALCT
Definition: CSCALCTDigi.h:48
int getQuality() const
return quality of a pattern
Definition: CSCALCTDigi.h:33
int getKeyWG() const
return key wire group
Definition: CSCALCTDigi.h:45
void CSCAnodeLCTProcessor::checkConfigParameters ( )
private

Make sure that the parameter values are within the allowed range.

Definition at line 375 of file CSCAnodeLCTProcessor.cc.

References accel_mode, def_accel_mode, def_drift_delay, def_fifo_pretrig, def_fifo_tbins, def_l1a_window_width, def_nplanes_hit_accel_pattern, def_nplanes_hit_accel_pretrig, def_nplanes_hit_pattern, def_nplanes_hit_pretrig, def_trig_mode, drift_delay, fifo_pretrig, fifo_tbins, infoV, l1a_window_width, MAX_ALCT_BINS, nplanes_hit_accel_pattern, nplanes_hit_accel_pretrig, nplanes_hit_pattern, nplanes_hit_pretrig, and trig_mode.

Referenced by CSCAnodeLCTProcessor(), and setConfigParameters().

375  {
376  // Make sure that the parameter values are within the allowed range.
377 
378  // Max expected values.
379  static const unsigned int max_fifo_tbins = 1 << 5;
380  static const unsigned int max_fifo_pretrig = 1 << 5;
381  static const unsigned int max_drift_delay = 1 << 2;
382  static const unsigned int max_nplanes_hit_pretrig = 1 << 3;
383  static const unsigned int max_nplanes_hit_pattern = 1 << 3;
384  static const unsigned int max_nplanes_hit_accel_pretrig = 1 << 3;
385  static const unsigned int max_nplanes_hit_accel_pattern = 1 << 3;
386  static const unsigned int max_trig_mode = 1 << 2;
387  static const unsigned int max_accel_mode = 1 << 2;
388  static const unsigned int max_l1a_window_width = MAX_ALCT_BINS; // 4 bits
389 
390  // Checks.
391  if (fifo_tbins >= max_fifo_tbins) {
392  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
393  << "+++ Value of fifo_tbins, " << fifo_tbins
394  << ", exceeds max allowed, " << max_fifo_tbins-1 << " +++\n"
395  << "+++ Try to proceed with the default value, fifo_tbins="
396  << def_fifo_tbins << " +++\n";
398  }
399  if (fifo_pretrig >= max_fifo_pretrig) {
400  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
401  << "+++ Value of fifo_pretrig, " << fifo_pretrig
402  << ", exceeds max allowed, " << max_fifo_pretrig-1 << " +++\n"
403  << "+++ Try to proceed with the default value, fifo_pretrig="
404  << def_fifo_pretrig << " +++\n";
406  }
407  if (drift_delay >= max_drift_delay) {
408  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
409  << "+++ Value of drift_delay, " << drift_delay
410  << ", exceeds max allowed, " << max_drift_delay-1 << " +++\n"
411  << "+++ Try to proceed with the default value, drift_delay="
412  << def_drift_delay << " +++\n";
414  }
415  if (nplanes_hit_pretrig >= max_nplanes_hit_pretrig) {
416  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
417  << "+++ Value of nplanes_hit_pretrig, " << nplanes_hit_pretrig
418  << ", exceeds max allowed, " << max_nplanes_hit_pretrig-1 << " +++\n"
419  << "+++ Try to proceed with the default value, nplanes_hit_pretrig="
420  << nplanes_hit_pretrig << " +++\n";
421  nplanes_hit_pretrig = def_nplanes_hit_pretrig;
422  }
423  if (nplanes_hit_pattern >= max_nplanes_hit_pattern) {
424  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
425  << "+++ Value of nplanes_hit_pattern, " << nplanes_hit_pattern
426  << ", exceeds max allowed, " << max_nplanes_hit_pattern-1 << " +++\n"
427  << "+++ Try to proceed with the default value, nplanes_hit_pattern="
428  << nplanes_hit_pattern << " +++\n";
429  nplanes_hit_pattern = def_nplanes_hit_pattern;
430  }
431  if (nplanes_hit_accel_pretrig >= max_nplanes_hit_accel_pretrig) {
432  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
433  << "+++ Value of nplanes_hit_accel_pretrig, "
434  << nplanes_hit_accel_pretrig << ", exceeds max allowed, "
435  << max_nplanes_hit_accel_pretrig-1 << " +++\n"
436  << "+++ Try to proceed with the default value, "
437  << "nplanes_hit_accel_pretrig=" << nplanes_hit_accel_pretrig << " +++\n";
438  nplanes_hit_accel_pretrig = def_nplanes_hit_accel_pretrig;
439  }
440  if (nplanes_hit_accel_pattern >= max_nplanes_hit_accel_pattern) {
441  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
442  << "+++ Value of nplanes_hit_accel_pattern, "
443  << nplanes_hit_accel_pattern << ", exceeds max allowed, "
444  << max_nplanes_hit_accel_pattern-1 << " +++\n"
445  << "+++ Try to proceed with the default value, "
446  << "nplanes_hit_accel_pattern=" << nplanes_hit_accel_pattern << " +++\n";
447  nplanes_hit_accel_pattern = def_nplanes_hit_accel_pattern;
448  }
449  if (trig_mode >= max_trig_mode) {
450  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
451  << "+++ Value of trig_mode, " << trig_mode
452  << ", exceeds max allowed, " << max_trig_mode-1 << " +++\n"
453  << "+++ Try to proceed with the default value, trig_mode="
454  << trig_mode << " +++\n";
455  trig_mode = def_trig_mode;
456  }
457  if (accel_mode >= max_accel_mode) {
458  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
459  << "+++ Value of accel_mode, " << accel_mode
460  << ", exceeds max allowed, " << max_accel_mode-1 << " +++\n"
461  << "+++ Try to proceed with the default value, accel_mode="
462  << accel_mode << " +++\n";
463  accel_mode = def_accel_mode;
464  }
465  if (l1a_window_width >= max_l1a_window_width) {
466  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorConfigError")
467  << "+++ Value of l1a_window_width, " << l1a_window_width
468  << ", exceeds max allowed, " << max_l1a_window_width-1 << " +++\n"
469  << "+++ Try to proceed with the default value, l1a_window_width="
470  << l1a_window_width << " +++\n";
471  l1a_window_width = def_l1a_window_width;
472  }
473 }
static const unsigned int def_drift_delay
static const unsigned int def_fifo_tbins
static const unsigned int def_accel_mode
static const unsigned int def_nplanes_hit_accel_pretrig
static const unsigned int def_fifo_pretrig
static const unsigned int def_nplanes_hit_pattern
static const unsigned int def_l1a_window_width
static const unsigned int def_trig_mode
static const unsigned int def_nplanes_hit_accel_pattern
unsigned int nplanes_hit_accel_pattern
static const unsigned int def_nplanes_hit_pretrig
unsigned int nplanes_hit_accel_pretrig
void CSCAnodeLCTProcessor::clear ( void  )

Clears the LCT containers.

Definition at line 475 of file CSCAnodeLCTProcessor.cc.

References bestALCT, CSCALCTDigi::clear(), MAX_ALCT_BINS, and secondALCT.

Referenced by ghostCancellationLogic(), and ghostCancellationLogicSLHC().

475  {
476  for (int bx = 0; bx < MAX_ALCT_BINS; bx++) {
477  bestALCT[bx].clear();
478  secondALCT[bx].clear();
479  }
480 }
CSCALCTDigi bestALCT[MAX_ALCT_BINS]
CSCALCTDigi secondALCT[MAX_ALCT_BINS]
void clear()
clear this ALCT
Definition: CSCALCTDigi.cc:35
void CSCAnodeLCTProcessor::clear ( const int  wire,
const int  pattern 
)
private

Clears the quality for a given wire and pattern if it is a ghost.

Definition at line 482 of file CSCAnodeLCTProcessor.cc.

References quality.

482  {
483  /* Clear the data off of selected pattern */
484  if (pattern == 0) quality[wire][0] = -999;
485  else {
486  quality[wire][1] = -999;
487  quality[wire][2] = -999;
488  }
489 }
int quality[CSCConstants::MAX_NUM_WIRES][3]
void CSCAnodeLCTProcessor::dumpConfigParams ( ) const
private

Dump ALCT configuration parameters.

Definition at line 1560 of file CSCAnodeLCTProcessor.cc.

References accel_mode, drift_delay, fifo_pretrig, fifo_tbins, l1a_window_width, LogDebug, nplanes_hit_accel_pattern, nplanes_hit_accel_pretrig, nplanes_hit_pattern, nplanes_hit_pretrig, and trig_mode.

Referenced by CSCAnodeLCTProcessor(), run(), and setConfigParameters().

1560  {
1561  std::ostringstream strm;
1562  strm << "\n";
1563  strm << "++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++\n";
1564  strm << "+ ALCT configuration parameters: +\n";
1565  strm << "++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++\n";
1566  strm << " fifo_tbins [total number of time bins in DAQ readout] = "
1567  << fifo_tbins << "\n";
1568  strm << " fifo_pretrig [start time of anode raw hits in DAQ readout] = "
1569  << fifo_pretrig << "\n";
1570  strm << " drift_delay [drift delay after pre-trigger, in 25 ns bins] = "
1571  << drift_delay << "\n";
1572  strm << " nplanes_hit_pretrig [min. number of layers hit for pre-trigger] = "
1573  << nplanes_hit_pretrig << "\n";
1574  strm << " nplanes_hit_pattern [min. number of layers hit for trigger] = "
1575  << nplanes_hit_pattern << "\n";
1576  strm << " nplanes_hit_accel_pretrig [min. number of layers hit for accel."
1577  << " pre-trig.] = " << nplanes_hit_accel_pretrig << "\n";
1578  strm << " nplanes_hit_accel_pattern [min. number of layers hit for accel."
1579  << " trigger] = " << nplanes_hit_accel_pattern << "\n";
1580  strm << " trig_mode [enabling/disabling collision/accelerator tracks] = "
1581  << trig_mode << "\n";
1582  strm << " accel_mode [preference to collision/accelerator tracks] = "
1583  << accel_mode << "\n";
1584  strm << " l1a_window_width [L1Accept window width, in 25 ns bins] = "
1585  << l1a_window_width << "\n";
1586  strm << "++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++\n";
1587  LogDebug("CSCAnodeLCTProcessor") << strm.str();
1588  //std::cout<<strm.str()<<std::endl;
1589 }
#define LogDebug(id)
unsigned int nplanes_hit_accel_pattern
unsigned int nplanes_hit_accel_pretrig
void CSCAnodeLCTProcessor::dumpDigis ( const std::vector< int >  wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]) const
private

Dump digis on wire groups.

Definition at line 1592 of file CSCAnodeLCTProcessor.cc.

References TauDecayModes::dec, LogDebug, LogTrace, CSCConstants::NUM_LAYERS, numWireGroups, findQualityFiles::size, theChamber, theEndcap, theRing, and theStation.

Referenced by pulseExtension().

1592  {
1593  LogDebug("CSCAnodeLCTProcessor")
1594  << "ME" << ((theEndcap == 1) ? "+" : "-")
1595  << theStation << "/" << theRing << "/" << theChamber
1596  << " nWiregroups " << numWireGroups;
1597 
1598  std::ostringstream strstrm;
1599  for (int i_wire = 0; i_wire < numWireGroups; i_wire++) {
1600  if (i_wire%10 == 0) {
1601  if (i_wire < 100) strstrm << i_wire/10;
1602  else strstrm << (i_wire-100)/10;
1603  }
1604  else strstrm << " ";
1605  }
1606  strstrm << "\n";
1607  for (int i_wire = 0; i_wire < numWireGroups; i_wire++) {
1608  strstrm << i_wire%10;
1609  }
1610  for (int i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++) {
1611  strstrm << "\n";
1612  for (int i_wire = 0; i_wire < numWireGroups; i_wire++) {
1613  if (wire[i_layer][i_wire].size() > 0) {
1614  std::vector<int> bx_times = wire[i_layer][i_wire];
1615  strstrm << std::hex << bx_times[0] << std::dec;
1616  }
1617  else {
1618  strstrm << ".";
1619  }
1620  }
1621  }
1622  LogTrace("CSCAnodeLCTProcessor") << strstrm.str();
1623 }
#define LogDebug(id)
#define LogTrace(id)
tuple size
Write out results.
std::vector< CSCALCTDigi > CSCAnodeLCTProcessor::getALCTs ( )

Returns vector of all found ALCTs, if any.

Definition at line 1693 of file CSCAnodeLCTProcessor.cc.

References bestALCT, MAX_ALCT_BINS, and secondALCT.

Referenced by readoutALCTs(), and run().

1693  {
1694  std::vector<CSCALCTDigi> tmpV;
1695  for (int bx = 0; bx < MAX_ALCT_BINS; bx++) {
1696  if (bestALCT[bx].isValid()) tmpV.push_back(bestALCT[bx]);
1697  if (secondALCT[bx].isValid()) tmpV.push_back(secondALCT[bx]);
1698  }
1699  return tmpV;
1700 }
CSCALCTDigi bestALCT[MAX_ALCT_BINS]
CSCALCTDigi secondALCT[MAX_ALCT_BINS]
bool CSCAnodeLCTProcessor::getDigis ( const CSCWireDigiCollection wiredc)

Access routines to wire digis.

Definition at line 633 of file CSCAnodeLCTProcessor.cc.

References begin, digiV, disableME1a, relativeConstraints::empty, infoV, isME11, LogTrace, CSCConstants::NUM_LAYERS, theChamber, theEndcap, theRing, theSector, theStation, theSubsector, and theTrigChamber.

Referenced by run().

633  {
634  // Routine for getting digis and filling digiV vector.
635  bool noDigis = true;
636 
637  // Loop over layers and save wire digis on each one into digiV[layer].
638  for (int i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++) {
639  digiV[i_layer].clear();
640 
641  CSCDetId detid(theEndcap, theStation, theRing, theChamber, i_layer+1);
642  getDigis(wiredc, detid);
643 
644  // If this is ME1/1, fetch digis in corresponding ME1/A (ring=4) as well.
645  if (isME11 && !disableME1a) {
646  CSCDetId detid_me1a(theEndcap, theStation, 4, theChamber, i_layer+1);
647  getDigis(wiredc, detid_me1a);
648  }
649 
650  if (!digiV[i_layer].empty()) {
651  noDigis = false;
652  if (infoV > 1) {
653  LogTrace("CSCAnodeLCTProcessor")
654  << "found " << digiV[i_layer].size()
655  << " wire digi(s) in layer " << i_layer << " of ME"
656  << ((theEndcap == 1) ? "+" : "-") << theStation << "/" << theRing
657  << "/" << theChamber << " (trig. sector " << theSector
658  << " subsector " << theSubsector << " id " << theTrigChamber << ")";
659  for (std::vector<CSCWireDigi>::iterator pld = digiV[i_layer].begin();
660  pld != digiV[i_layer].end(); pld++) {
661  LogTrace("CSCAnodeLCTProcessor") << " " << (*pld);
662  }
663  }
664  }
665  }
666 
667  return noDigis;
668 }
bool getDigis(const CSCWireDigiCollection *wiredc)
const unsigned theTrigChamber
#define LogTrace(id)
#define begin
Definition: vmac.h:30
std::vector< CSCWireDigi > digiV[CSCConstants::NUM_LAYERS]
void CSCAnodeLCTProcessor::getDigis ( const CSCWireDigiCollection wiredc,
const CSCDetId id 
)

Definition at line 670 of file CSCAnodeLCTProcessor.cc.

References digiV.

671  {
672  const CSCWireDigiCollection::Range rwired = wiredc->get(id);
673  for (CSCWireDigiCollection::const_iterator digiIt = rwired.first;
674  digiIt != rwired.second; ++digiIt) {
675  digiV[id.layer()-1].push_back(*digiIt);
676  }
677 }
std::vector< CSCWireDigi >::const_iterator const_iterator
std::pair< const_iterator, const_iterator > Range
std::vector< CSCWireDigi > digiV[CSCConstants::NUM_LAYERS]
void CSCAnodeLCTProcessor::ghostCancellationLogic ( )
private

Definition at line 1015 of file CSCAnodeLCTProcessor.cc.

References clear(), dt, first_bx, ghost_cancellation_bx_depth, ghost_cancellation_side_quality, infoV, LogTrace, CSCConstants::MAX_NUM_WIRES, numWireGroups, and quality.

Referenced by run().

1015  {
1016  /* This function looks for LCTs on the previous and next wires. If one
1017  exists and it has a better quality and a bx_time up to 4 clocks earlier
1018  than the present, then the present LCT is cancelled. The present LCT
1019  also gets cancelled if it has the same quality as the one on the
1020  previous wire (this has not been done in 2003 test beam). The
1021  cancellation is done separately for collision and accelerator patterns. */
1022 
1023  int ghost_cleared[CSCConstants::MAX_NUM_WIRES][2];
1024 
1025  for (int key_wire = 0; key_wire < numWireGroups; key_wire++) {
1026  for (int i_pattern = 0; i_pattern < 2; i_pattern++) {
1027  ghost_cleared[key_wire][i_pattern] = 0;
1028 
1029  // Non-empty wire group.
1030  int qual_this = quality[key_wire][i_pattern];
1031  if (qual_this > 0) {
1032 
1033  // Previous wire.
1034  int qual_prev = (key_wire > 0) ? quality[key_wire-1][i_pattern] : 0;
1035  if (qual_prev > 0) {
1036  int dt = first_bx[key_wire] - first_bx[key_wire-1];
1037  // Cancel this wire
1038  // 1) If the candidate at the previous wire is at the same bx
1039  // clock and has better quality (or equal quality - this has
1040  // been implemented only in 2004).
1041  // 2) If the candidate at the previous wire is up to 4 clocks
1042  // earlier, regardless of quality.
1043  if (dt == 0) {
1044  if (qual_prev >= qual_this) ghost_cleared[key_wire][i_pattern] = 1;
1045  }
1046  else if (dt > 0 && dt <= ghost_cancellation_bx_depth ) {
1047  // Next "if" check accounts for firmware bug and should be
1048  // removed once the next firmware version is used.
1049  // The bug is fixed in 5/5/2008 version of ALCT firmware,
1050  // which is used in all chambers starting with 26/05/2008.
1053  (qual_prev > qual_this) )
1054  ghost_cleared[key_wire][i_pattern] = 1;
1055  }
1056  }
1057 
1058  // Next wire.
1059  // Skip this step if this wire is already declared "ghost".
1060  if (ghost_cleared[key_wire][i_pattern] == 1) {
1061  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1062  << ((i_pattern == 0) ? "Accelerator" : "Collision")
1063  << " pattern ghost cancelled on key_wire " << key_wire <<" q="<<qual_this
1064  << " by wire " << key_wire-1<<" q="<<qual_prev;
1065  continue;
1066  }
1067 
1068  int qual_next =
1069  (key_wire < numWireGroups-1) ? quality[key_wire+1][i_pattern] : 0;
1070  if (qual_next > 0) {
1071  int dt = first_bx[key_wire] - first_bx[key_wire+1];
1072  // Same cancellation logic as for the previous wire.
1073  if (dt == 0) {
1074  if (qual_next > qual_this) ghost_cleared[key_wire][i_pattern] = 1;
1075  }
1076  else if (dt > 0 && dt <= ghost_cancellation_bx_depth ) {
1077  // Next "if" check accounts for firmware bug and should be
1078  // removed once the next firmware version is used.
1079  // The bug is fixed in 5/5/2008 version of ALCT firmware,
1080  // which is used in all chambers starting with 26/05/2008.
1083  (qual_next >= qual_this) )
1084  ghost_cleared[key_wire][i_pattern] = 1;
1085  }
1086  }
1087  if (ghost_cleared[key_wire][i_pattern] == 1) {
1088  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1089  << ((i_pattern == 0) ? "Accelerator" : "Collision")
1090  << " pattern ghost cancelled on key_wire " << key_wire <<" q="<<qual_this
1091  << " by wire " << key_wire+1<<" q="<<qual_next;
1092  continue;
1093  }
1094  }
1095  }
1096  }
1097 
1098  // All cancellation is done in parallel, so wiregroups do not know what
1099  // their neighbors are cancelling.
1100  for (int key_wire = 0; key_wire < numWireGroups; key_wire++) {
1101  for (int i_pattern = 0; i_pattern < 2; i_pattern++) {
1102  if (ghost_cleared[key_wire][i_pattern] > 0) {
1103  clear(key_wire, i_pattern);
1104  }
1105  }
1106  }
1107 }
float dt
Definition: AMPTWrapper.h:126
int quality[CSCConstants::MAX_NUM_WIRES][3]
#define LogTrace(id)
int first_bx[CSCConstants::MAX_NUM_WIRES]
void CSCAnodeLCTProcessor::ghostCancellationLogicSLHC ( )
private

Definition at line 1110 of file CSCAnodeLCTProcessor.cc.

References clear(), dt, first_bx, first_bx_corrected, ghost_cancellation_bx_depth, ghost_cancellation_side_quality, infoV, LogTrace, CSCConstants::MAX_NUM_WIRES, numWireGroups, or, quality, runME21ILT_, runME3141ILT_, and use_corrected_bx.

Referenced by run().

1110  {
1111  /* This function looks for LCTs on the previous and next wires. If one
1112  exists and it has a better quality and a bx_time up to
1113  ghost_cancellation_bx_depth clocks earlier than the present,
1114  then the present LCT is cancelled. The present LCT
1115  also gets cancelled if it has the same quality as the one on the
1116  previous wire (this has not been done in 2003 test beam). The
1117  cancellation is done separately for collision and accelerator patterns. */
1118 
1119  int ghost_cleared[CSCConstants::MAX_NUM_WIRES][2];
1120 
1121  for (int key_wire = 0; key_wire < numWireGroups; key_wire++) {
1122  for (int i_pattern = 0; i_pattern < 2; i_pattern++) {
1123  ghost_cleared[key_wire][i_pattern] = 0;
1124 
1125  // Non-empty wire group.
1126  int qual_this = quality[key_wire][i_pattern];
1127  if (qual_this > 0) {
1128 
1129  if (runME21ILT_ or runME3141ILT_) qual_this = (qual_this & 0x03);
1130  // Previous wire.
1131  int dt = -1;
1132  int qual_prev = (key_wire > 0) ? quality[key_wire-1][i_pattern] : 0;
1133  if (qual_prev > 0) {
1134  if (use_corrected_bx)
1135  dt = first_bx_corrected[key_wire] - first_bx_corrected[key_wire-1];
1136  else
1137  dt = first_bx[key_wire] - first_bx[key_wire-1];
1138  // hack to run the Phase-II ME2/1, ME3/1 and ME4/1 ILT
1139  if (runME21ILT_ or runME3141ILT_) qual_prev = (qual_prev & 0x03);
1140 
1141  // Cancel this wire
1142  // 1) If the candidate at the previous wire is at the same bx
1143  // clock and has better quality (or equal? quality - this has
1144  // been implemented only in 2004).
1145  // 2) If the candidate at the previous wire is up to 4 clocks
1146  // earlier, regardless of quality.
1147  if (dt == 0) {
1148  if (qual_prev > qual_this) ghost_cleared[key_wire][i_pattern] = 1;
1149  }
1150  else if (dt > 0 && dt <= ghost_cancellation_bx_depth ) {
1151  // Next "if" check accounts for firmware bug and should be
1152  // removed once the next firmware version is used.
1153  // The bug is fixed in 5/5/2008 version of ALCT firmware,
1154  // which is used in all chambers starting with 26/05/2008.
1157  (qual_prev > qual_this) )
1158  ghost_cleared[key_wire][i_pattern] = 1;
1159  }
1160  }
1161 
1162  // Next wire.
1163  // Skip this step if this wire is already declared "ghost".
1164  if (ghost_cleared[key_wire][i_pattern] == 1) {
1165  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1166  << ((i_pattern == 0) ? "Accelerator" : "Collision")
1167  << " pattern ghost cancelled on key_wire " << key_wire <<" q="<<qual_this
1168  << " by wire " << key_wire-1<<" q="<<qual_prev<<" dt="<<dt;
1169  continue;
1170  }
1171 
1172  dt = -1;
1173  int qual_next =
1174  (key_wire < numWireGroups-1) ? quality[key_wire+1][i_pattern] : 0;
1175  if (qual_next > 0) {
1176  if (use_corrected_bx)
1177  dt = first_bx_corrected[key_wire] - first_bx_corrected[key_wire+1];
1178  else
1179  dt = first_bx[key_wire] - first_bx[key_wire+1];
1180  // hack to run the Phase-II ME2/1, ME3/1 and ME4/1 ILT
1181  if (runME21ILT_ or runME3141ILT_)
1182  qual_next = (qual_next & 0x03);
1183  // Same cancellation logic as for the previous wire.
1184  if (dt == 0) {
1185  if (qual_next >= qual_this) ghost_cleared[key_wire][i_pattern] = 1;
1186  }
1187  else if (dt > 0 && dt <= ghost_cancellation_bx_depth ) {
1188  // Next "if" check accounts for firmware bug and should be
1189  // removed once the next firmware version is used.
1190  // The bug is fixed in 5/5/2008 version of ALCT firmware,
1191  // which is used in all chambers starting with 26/05/2008.
1194  (qual_next >= qual_this) )
1195  ghost_cleared[key_wire][i_pattern] = 1;
1196  }
1197  }
1198  if (ghost_cleared[key_wire][i_pattern] == 1) {
1199  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1200  << ((i_pattern == 0) ? "Accelerator" : "Collision")
1201  << " pattern ghost cancelled on key_wire " << key_wire <<" q="<<qual_this
1202  << " by wire " << key_wire+1<<" q="<<qual_next<<" dt="<<dt;
1203  continue;
1204  }
1205  }
1206  }
1207  }
1208 
1209  // All cancellation is done in parallel, so wiregroups do not know what
1210  // their neighbors are cancelling.
1211  for (int key_wire = 0; key_wire < numWireGroups; key_wire++) {
1212  for (int i_pattern = 0; i_pattern < 2; i_pattern++) {
1213  if (ghost_cleared[key_wire][i_pattern] > 0) {
1214  clear(key_wire, i_pattern);
1215  }
1216  }
1217  }
1218 }
float dt
Definition: AMPTWrapper.h:126
int quality[CSCConstants::MAX_NUM_WIRES][3]
int first_bx_corrected[CSCConstants::MAX_NUM_WIRES]
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< void, edm::EventIDconst &, edm::Timestampconst & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
Definition: Activities.doc:12
#define LogTrace(id)
int first_bx[CSCConstants::MAX_NUM_WIRES]
bool CSCAnodeLCTProcessor::isBetterALCT ( const CSCALCTDigi lhsALCT,
const CSCALCTDigi rhsALCT 
)
private

Definition at line 1449 of file CSCAnodeLCTProcessor.cc.

References CSCALCTDigi::getAccelerator(), CSCALCTDigi::getBX(), CSCALCTDigi::getKeyWG(), CSCALCTDigi::getQuality(), CSCALCTDigi::isValid(), and quality.

Referenced by lctSearch().

1450  {
1451  /* This method should have been an overloaded > operator, but we
1452  have to keep it here since need to check values in quality[][]
1453  array modified according to accel_mode parameter. */
1454  bool returnValue = false;
1455 
1456  if (lhsALCT.isValid() && !rhsALCT.isValid()) {return true;}
1457 
1458  // ALCTs found at earlier bx times are ranked higher than ALCTs found at
1459  // later bx times regardless of the quality.
1460  if (lhsALCT.getBX() < rhsALCT.getBX()) {returnValue = true;}
1461  if (lhsALCT.getBX() != rhsALCT.getBX()) {return returnValue;}
1462 
1463  // First check the quality of ALCTs.
1464  int qual1 = lhsALCT.getQuality();
1465  int qual2 = rhsALCT.getQuality();
1466  if (qual1 > qual2) {returnValue = true;}
1467  // If qualities are the same, check accelerator bits of both ALCTs.
1468  // If they are not the same, rank according to accel_mode value.
1469  // If they are the same, keep the track selector assignment.
1470  else if (qual1 == qual2 &&
1471  lhsALCT.getAccelerator() != rhsALCT.getAccelerator() &&
1472  quality[lhsALCT.getKeyWG()][1-lhsALCT.getAccelerator()] >
1473  quality[rhsALCT.getKeyWG()][1-rhsALCT.getAccelerator()])
1474  {returnValue = true;}
1475 
1476  return returnValue;
1477 }
int quality[CSCConstants::MAX_NUM_WIRES][3]
bool isValid() const
check ALCT validity (1 - valid ALCT)
Definition: CSCALCTDigi.h:30
int getBX() const
return BX - five low bits of BXN counter tagged by the ALCT
Definition: CSCALCTDigi.h:48
int getQuality() const
return quality of a pattern
Definition: CSCALCTDigi.h:33
int getAccelerator() const
Definition: CSCALCTDigi.h:37
int getKeyWG() const
return key wire group
Definition: CSCALCTDigi.h:45
void CSCAnodeLCTProcessor::lctSearch ( )
private

Definition at line 1221 of file CSCAnodeLCTProcessor.cc.

References accelMode(), bestALCT, bestTrackSelector(), CSCALCTDigi::clear(), first_bx, first_bx_corrected, CSCALCTDigi::getFullBX(), infoV, isBetterALCT(), isTMB07, LogDebug, LogTrace, MAX_ALCT_BINS, numWireGroups, quality, secondALCT, CSCALCTDigi::setFullBX(), CSCALCTDigi::setTrknmb(), theChamber, theEndcap, theRing, theSector, theStation, theSubsector, theTrigChamber, trigMode(), and use_corrected_bx.

Referenced by run().

1221  {
1222  // First modify the quality according accel_mode, then store all
1223  // of the valid LCTs in an array.
1224  std::vector<CSCALCTDigi> lct_list;
1225 
1226  for (int i_wire = 0; i_wire < numWireGroups; i_wire++) {
1227  // If there is either accelerator or collision, perform trigMode
1228  // function before storing and sorting.
1229  if (quality[i_wire][0] > 0 || quality[i_wire][1] > 0) {
1230  trigMode(i_wire);
1231 
1232  int bx = first_bx[i_wire];
1233  int fbx = first_bx_corrected[i_wire];
1234  if (infoV>1) LogTrace("CSCAnodeLCTProcessor")<<" bx="<<bx<<" fbx="<<fbx;
1235  if (use_corrected_bx) {
1236  bx = fbx;
1237  fbx = first_bx[i_wire];
1238  }
1239  if (infoV>1) LogTrace("CSCAnodeLCTProcessor")<<" bx="<<bx<<" fbx="<<fbx;
1240  // Store any valid accelerator pattern LCTs.
1241  if (quality[i_wire][0] > 0) {
1242  int qual = (quality[i_wire][0] & 0x03); // 2 LSBs
1243  CSCALCTDigi lct_info(1, qual, 1, 0, i_wire, bx);
1244  lct_info.setFullBX(fbx);
1245  lct_list.push_back(lct_info);
1246  }
1247 
1248  // Store any valid collision pattern LCTs.
1249  if (quality[i_wire][1] > 0) {
1250  int qual = (quality[i_wire][1] & 0x03); // 2 LSBs
1251  CSCALCTDigi lct_info(1, qual, 0, quality[i_wire][2], i_wire, bx);
1252  //lct_info.setFullBX(fbx); // uncomment if one wants, e.g., to keep corrected time here
1253  lct_list.push_back(lct_info);
1254  if (infoV>1) LogTrace("CSCAnodeLCTProcessor")<<" got lct_info: "<<lct_info;
1255  }
1256 
1257  // Modify qualities according to accel_mode parameter.
1258  accelMode(i_wire);
1259  }
1260  }
1261 
1262  // Best track selector selects two collision and two accelerator ALCTs
1263  // with the best quality per time bin.
1264  std::vector<CSCALCTDigi> fourBest = bestTrackSelector(lct_list);
1265 
1266  if (infoV > 0) {
1267  int n_alct_all=0, n_alct=0;
1268  for (std::vector <CSCALCTDigi>::const_iterator plct = lct_list.begin(); plct != lct_list.end(); plct++)
1269  if (plct->isValid() && plct->getBX()==6) n_alct_all++;
1270  for (std::vector <CSCALCTDigi>::const_iterator plct = fourBest.begin(); plct != fourBest.end(); plct++)
1271  if (plct->isValid() && plct->getBX()==6) n_alct++;
1272 
1273  LogTrace("CSCAnodeLCTProcessor")<<"alct_count E:"<<theEndcap<<"S:"<<theStation<<"R:"<<theRing<<"C:"<<theChamber
1274  <<" all "<<n_alct_all<<" found "<<n_alct;
1275  }
1276 
1277  // Select two best of four per time bin, based on quality and
1278  // accel_mode parameter.
1279  for (std::vector<CSCALCTDigi>::const_iterator plct = fourBest.begin();
1280  plct != fourBest.end(); plct++) {
1281 
1282  int bx = plct->getBX();
1283  if (bx >= MAX_ALCT_BINS) {
1284  if (infoV > 0) edm::LogWarning("L1CSCTPEmulatorOutOfTimeALCT")
1285  << "+++ Bx of ALCT candidate, " << bx << ", exceeds max allowed, "
1286  << MAX_ALCT_BINS-1 << "; skipping it... +++\n";
1287  continue;
1288  }
1289 
1290  if (isBetterALCT(*plct, bestALCT[bx])) {
1291  if (isBetterALCT(bestALCT[bx], secondALCT[bx])) {
1292  secondALCT[bx] = bestALCT[bx];
1293  }
1294  bestALCT[bx] = *plct;
1295  }
1296  else if (isBetterALCT(*plct, secondALCT[bx])) {
1297  secondALCT[bx] = *plct;
1298  }
1299  }
1300 
1301  if (!isTMB07) {
1302  // Prior to DAQ-2006 format, only ALCTs at the earliest bx were reported.
1303  int first_bx = MAX_ALCT_BINS;
1304  for (int bx = 0; bx < MAX_ALCT_BINS; bx++) {
1305  if (bestALCT[bx].isValid()) {
1306  first_bx = bx;
1307  break;
1308  }
1309  }
1310  if (first_bx < MAX_ALCT_BINS) {
1311  for (int bx = first_bx + 1; bx < MAX_ALCT_BINS; bx++) {
1312  if (bestALCT[bx].isValid()) bestALCT[bx].clear();
1313  if (secondALCT[bx].isValid()) secondALCT[bx].clear();
1314  }
1315  }
1316  }
1317 
1318  for (int bx = 0; bx < MAX_ALCT_BINS; bx++) {
1319  if (bestALCT[bx].isValid()) {
1320  bestALCT[bx].setTrknmb(1);
1321  if (infoV > 0) {
1322  LogDebug("CSCAnodeLCTProcessor")
1323  << "\n" << bestALCT[bx] << " fullBX = "<<bestALCT[bx].getFullBX()
1324  << " found in ME"
1325  << ((theEndcap == 1) ? "+" : "-")
1326  << theStation << "/" << theRing << "/" << theChamber
1327  << " (sector " << theSector << " subsector " << theSubsector
1328  << " trig id. " << theTrigChamber << ")" << "\n";
1329  }
1330  if (secondALCT[bx].isValid()) {
1331  secondALCT[bx].setTrknmb(2);
1332  if (infoV > 0) {
1333  LogDebug("CSCAnodeLCTProcessor")
1334  << secondALCT[bx] << " fullBX = "<<secondALCT[bx].getFullBX()
1335  << " found in ME"
1336  << ((theEndcap == 1) ? "+" : "-")
1337  << theStation << "/" << theRing << "/" << theChamber
1338  << " (sector " << theSector << " subsector " << theSubsector
1339  << " trig id. " << theTrigChamber << ")" << "\n";
1340  }
1341  }
1342  }
1343  }
1344 }
#define LogDebug(id)
int quality[CSCConstants::MAX_NUM_WIRES][3]
int first_bx_corrected[CSCConstants::MAX_NUM_WIRES]
CSCALCTDigi bestALCT[MAX_ALCT_BINS]
CSCALCTDigi secondALCT[MAX_ALCT_BINS]
void clear()
clear this ALCT
Definition: CSCALCTDigi.cc:35
const unsigned theTrigChamber
void trigMode(const int key_wire)
int getFullBX() const
return 12-bit full BX.
Definition: CSCALCTDigi.h:57
void accelMode(const int key_wire)
#define LogTrace(id)
bool isBetterALCT(const CSCALCTDigi &lhsALCT, const CSCALCTDigi &rhsALCT)
std::vector< CSCALCTDigi > bestTrackSelector(const std::vector< CSCALCTDigi > &all_alcts)
int first_bx[CSCConstants::MAX_NUM_WIRES]
void setTrknmb(const uint16_t number)
Set track number (1,2) after sorting ALCTs.
Definition: CSCALCTDigi.h:54
void CSCAnodeLCTProcessor::loadPatternMask ( )
private

Load pattern mask defined by configuration into pattern_mask

Definition at line 320 of file CSCAnodeLCTProcessor.cc.

References isMTCC, isTMB07, narrow_mask_r1, CSCConstants::NUM_ALCT_PATTERNS, NUM_PATTERN_WIRES, pattern_mask, pattern_mask_open, pattern_mask_r1, pattern_mask_slim, and theRing.

Referenced by CSCAnodeLCTProcessor().

320  {
321  // Load appropriate pattern mask.
322  for (int i_patt = 0; i_patt < CSCConstants::NUM_ALCT_PATTERNS; i_patt++) {
323  for (int i_wire = 0; i_wire < NUM_PATTERN_WIRES; i_wire++) {
324  if (isMTCC || isTMB07) {
325  pattern_mask[i_patt][i_wire] = pattern_mask_open[i_patt][i_wire];
326  if (narrow_mask_r1 && (theRing == 1 || theRing == 4))
327  pattern_mask[i_patt][i_wire] = pattern_mask_r1[i_patt][i_wire];
328  }
329  else {
330  pattern_mask[i_patt][i_wire] = pattern_mask_slim[i_patt][i_wire];
331  }
332  }
333  }
334 }
static const int pattern_mask_slim[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
static const int pattern_mask_r1[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
static const int pattern_mask_open[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
int pattern_mask[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
bool CSCAnodeLCTProcessor::patternDetection ( const int  key_wire)
private

Definition at line 871 of file CSCAnodeLCTProcessor.cc.

References funct::abs(), drift_delay, first_bx, first_bx_corrected, hit_persist, infoV, isTMB07, LogTrace, MESelection, nplanes_hit_accel_pattern, nplanes_hit_pattern, CSCConstants::NUM_ALCT_PATTERNS, CSCConstants::NUM_LAYERS, NUM_PATTERN_WIRES, numWireGroups, or, pattern_envelope, pattern_mask, pulse, class-composition::Q, quality, runME21ILT_, runME3141ILT_, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by run().

871  {
872  /* See if there is a pattern that satisfies nplanes_hit_pattern number of
873  layers hit for either the accelerator or collision patterns. Use
874  the pattern with the best quality. */
875 
876  bool trigger = false;
877  bool hit_layer[CSCConstants::NUM_LAYERS];
878  unsigned int temp_quality;
879  int this_layer, this_wire, delta_wire;
880  // If nplanes_hit_accel_pattern is 0, the firmware uses the value
881  // of nplanes_hit_pattern instead.
882  const unsigned int nplanes_hit_pattern_acc =
885  const unsigned int pattern_thresh[CSCConstants::NUM_ALCT_PATTERNS] = {
886  nplanes_hit_pattern_acc, nplanes_hit_pattern, nplanes_hit_pattern
887  };
888  const std::string ptn_label[] = {"Accelerator", "CollisionA", "CollisionB"};
889 
890  for (int i_pattern = 0; i_pattern < CSCConstants::NUM_ALCT_PATTERNS; i_pattern++){
891  temp_quality = 0;
892  for (int i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++)
893  hit_layer[i_layer] = false;
894 
895  double num_pattern_hits=0., times_sum=0.;
896  std::multiset<int> mset_for_median;
897  mset_for_median.clear();
898 
899  for (int i_wire = 0; i_wire < NUM_PATTERN_WIRES; i_wire++){
900  if (pattern_mask[i_pattern][i_wire] != 0){
901  this_layer = pattern_envelope[0][i_wire];
902  delta_wire = pattern_envelope[1+MESelection][i_wire];
903  this_wire = delta_wire + key_wire;
904  if ((this_wire >= 0) && (this_wire < numWireGroups)){
905 
906  // Wait a drift_delay time later and look for layers hit in
907  // the pattern.
908  if ( ( (pulse[this_layer][this_wire] >>
909  (first_bx[key_wire] + drift_delay)) & 1) == 1) {
910 
911  // If layer has never had a hit before, then increment number
912  // of layer hits.
913  if (hit_layer[this_layer] == false){
914  temp_quality++;
915  // keep track of which layers already had hits.
916  hit_layer[this_layer] = true;
917  if (infoV > 1)
918  LogTrace("CSCAnodeLCTProcessor")
919  << "bx_time: " << first_bx[key_wire]
920  << " pattern: " << i_pattern << " keywire: " << key_wire
921  << " layer: " << this_layer
922  << " quality: " << temp_quality;
923  }
924 
925  // for averaged time use only the closest WGs around the key WG
926  if (abs(delta_wire)<2) {
927  // find at what bx did pulse on this wire&layer start
928  // use hit_pesrist constraint on how far back we can go
929  int first_bx_layer = first_bx[key_wire] + drift_delay;
930  for (unsigned int dbx=0; dbx<hit_persist; dbx++) {
931  if (((pulse[this_layer][this_wire] >> (first_bx_layer-1)) & 1) == 1) first_bx_layer--;
932  else break;
933  }
934  times_sum += (double)first_bx_layer;
935  num_pattern_hits += 1.;
936  mset_for_median.insert(first_bx_layer);
937  if (infoV > 2)
938  LogTrace("CSCAnodeLCTProcessor")
939  <<" 1st bx in layer: "<<first_bx_layer
940  <<" sum bx: "<<times_sum
941  <<" #pat. hits: "<<num_pattern_hits;
942  }
943  }
944  }
945  }
946  }
947 
948  // calculate median
949  const int sz = mset_for_median.size();
950  if (sz > 0) {
951  std::multiset<int>::iterator im = mset_for_median.begin();
952  if (sz > 1) std::advance(im,sz/2-1);
953  if (sz == 1) first_bx_corrected[key_wire] = *im;
954  else if ((sz % 2) == 1) first_bx_corrected[key_wire] = *(++im);
955  else first_bx_corrected[key_wire] = ((*im) + (*(++im)))/2;
956 
957  if (infoV > 1) {
958  char bxs[300]="";
959  for (im = mset_for_median.begin(); im != mset_for_median.end(); im++)
960  sprintf(bxs,"%s %d", bxs, *im);
961  LogTrace("CSCAnodeLCTProcessor")
962  <<"bx="<<first_bx[key_wire]<<" bx_cor="<< first_bx_corrected[key_wire]<<" bxset="<<bxs;
963  }
964  }
965 
966  if (temp_quality >= pattern_thresh[i_pattern]) {
967  trigger = true;
968 
969  if (!isTMB07) {
970  // Quality reported by the pattern detector is defined as the number
971  // of the layers hit in a pattern minus (pattern_thresh-1) value.
972  temp_quality -= (pattern_thresh[i_pattern]-1);
973  }
974  else {
975  // Quality definition changed on 22 June 2007: it no longer depends
976  // on pattern_thresh.
977  int Q;
978  // hack to run the Phase-II ME2/1, ME3/1 and ME4/1 ILT
979  if (temp_quality == 3 and (runME21ILT_ or runME3141ILT_)) Q = 4;
980  else if (temp_quality > 3) Q = temp_quality - 3;
981  else Q = 0; // quality code 0 is valid!
982  temp_quality = Q;
983  }
984 
985  if (i_pattern == 0) {
986  // Accelerator pattern
987  quality[key_wire][0] = temp_quality;
988  }
989  else {
990  // Only one collision pattern (of the best quality) is reported
991  if (static_cast<int>(temp_quality) > quality[key_wire][1]) {
992  quality[key_wire][1] = temp_quality;
993  quality[key_wire][2] = i_pattern-1;
994  }
995  }
996  if (infoV > 1) {
997  LogTrace("CSCAnodeLCTProcessor")
998  << "Pattern found; keywire: " << key_wire
999  << " type: " << ptn_label[i_pattern]
1000  << " quality: " << temp_quality << "\n";
1001  }
1002  }
1003  }
1004  if (infoV > 1 && quality[key_wire][1] > 0) {
1005  if (quality[key_wire][2] == 0)
1006  LogTrace("CSCAnodeLCTProcessor")
1007  << "Collision Pattern A is chosen" << "\n";
1008  else if (quality[key_wire][2] == 1)
1009  LogTrace("CSCAnodeLCTProcessor")
1010  << "Collision Pattern B is chosen" << "\n";
1011  }
1012  return trigger;
1013 }
int quality[CSCConstants::MAX_NUM_WIRES][3]
int first_bx_corrected[CSCConstants::MAX_NUM_WIRES]
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< void, edm::EventIDconst &, edm::Timestampconst & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
Definition: Activities.doc:12
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
static const int pattern_envelope[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
#define LogTrace(id)
int first_bx[CSCConstants::MAX_NUM_WIRES]
unsigned int pulse[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]
unsigned int nplanes_hit_accel_pattern
int pattern_mask[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
bool CSCAnodeLCTProcessor::preTrigger ( const int  key_wire,
const int  start_bx 
)
private

Definition at line 808 of file CSCAnodeLCTProcessor.cc.

References drift_delay, fifo_tbins, first_bx, infoV, LogTrace, MESelection, nplanes_hit_accel_pretrig, nplanes_hit_pretrig, CSCConstants::NUM_ALCT_PATTERNS, CSCConstants::NUM_LAYERS, NUM_PATTERN_WIRES, numWireGroups, pattern_envelope, pattern_mask, and pulse.

Referenced by run().

808  {
809  /* Check that there are nplanes_hit_pretrig or more layers hit in collision
810  or accelerator patterns for a particular key_wire. If so, return
811  true and the PatternDetection process will start. */
812 
813  unsigned int layers_hit;
814  bool hit_layer[CSCConstants::NUM_LAYERS];
815  int this_layer, this_wire;
816  // If nplanes_hit_accel_pretrig is 0, the firmware uses the value
817  // of nplanes_hit_pretrig instead.
818  const unsigned int nplanes_hit_pretrig_acc =
821  const unsigned int pretrig_thresh[CSCConstants::NUM_ALCT_PATTERNS] = {
822  nplanes_hit_pretrig_acc, nplanes_hit_pretrig, nplanes_hit_pretrig
823  };
824 
825  // Loop over bx times, accelerator and collision patterns to
826  // look for pretrigger.
827  // Stop drift_delay bx's short of fifo_tbins since at later bx's we will
828  // not have a full set of hits to start pattern search anyway.
829  unsigned int stop_bx = fifo_tbins - drift_delay;
830  for (unsigned int bx_time = start_bx; bx_time < stop_bx; bx_time++) {
831  for (int i_pattern = 0; i_pattern < CSCConstants::NUM_ALCT_PATTERNS; i_pattern++) {
832  for (int i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++)
833  hit_layer[i_layer] = false;
834  layers_hit = 0;
835 
836  for (int i_wire = 0; i_wire < NUM_PATTERN_WIRES; i_wire++){
837  if (pattern_mask[i_pattern][i_wire] != 0){
838  this_layer = pattern_envelope[0][i_wire];
839  this_wire = pattern_envelope[1+MESelection][i_wire]+key_wire;
840  if ((this_wire >= 0) && (this_wire < numWireGroups)){
841  // Perform bit operation to see if pulse is 1 at a certain bx_time.
842  if (((pulse[this_layer][this_wire] >> bx_time) & 1) == 1) {
843  // Store number of layers hit.
844  if (hit_layer[this_layer] == false){
845  hit_layer[this_layer] = true;
846  layers_hit++;
847  }
848 
849  // See if number of layers hit is greater than or equal to
850  // pretrig_thresh.
851  if (layers_hit >= pretrig_thresh[i_pattern]) {
852  first_bx[key_wire] = bx_time;
853  if (infoV > 1) {
854  LogTrace("CSCAnodeLCTProcessor")
855  << "Pretrigger was satisfied for wire: " << key_wire
856  << " pattern: " << i_pattern
857  << " bx_time: " << bx_time;
858  }
859  return true;
860  }
861  }
862  }
863  }
864  }
865  }
866  }
867  // If the pretrigger was never satisfied, then return false.
868  return false;
869 }
static const int pattern_envelope[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
#define LogTrace(id)
int first_bx[CSCConstants::MAX_NUM_WIRES]
unsigned int pulse[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]
int pattern_mask[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
unsigned int nplanes_hit_accel_pretrig
bool CSCAnodeLCTProcessor::pulseExtension ( const std::vector< int >  wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])
private

Definition at line 738 of file CSCAnodeLCTProcessor.cc.

References dumpDigis(), first_bx, first_bx_corrected, hit_persist, i, infoV, j, LogTrace, CSCConstants::NUM_LAYERS, numWireGroups, pulse, quality, and findQualityFiles::size.

Referenced by run().

738  {
739  /* A pulse array will be used as a bit representation of hit times.
740  For example: if a keywire has a bx_time of 3, then 1 shifted
741  left 3 will be bit pattern 0000000000001000. Bits are then added to
742  signify the duration of a signal (hit_persist, formerly bx_width). So
743  for the pulse with a hit_persist of 6 will look like 0000000111111000. */
744 
745  bool chamber_empty = true;
746  int i_wire, i_layer, digi_num;
747  static unsigned int bits_in_pulse = 8*sizeof(pulse[0][0]);
748 
749  for (i_wire = 0; i_wire < numWireGroups; i_wire++) {
750  for (i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++) {
751  pulse[i_layer][i_wire] = 0;
752  }
753  first_bx[i_wire] = -999;
754  first_bx_corrected[i_wire] = -999;
755  for (int j = 0; j < 3; j++) quality[i_wire][j] = -999;
756  }
757 
758  for (i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++){
759  digi_num = 0;
760  for (i_wire = 0; i_wire < numWireGroups; i_wire++) {
761  if (wire[i_layer][i_wire].size() > 0) {
762  std::vector<int> bx_times = wire[i_layer][i_wire];
763  for (unsigned int i = 0; i < bx_times.size(); i++) {
764  // Check that min and max times are within the allowed range.
765  if (bx_times[i] < 0 || bx_times[i] + hit_persist >= bits_in_pulse) {
766  if (infoV > 0) edm::LogWarning("L1CSCTPEmulatorOutOfTimeDigi")
767  << "+++ BX time of wire digi (wire = " << i_wire
768  << " layer = " << i_layer << ") bx = " << bx_times[i]
769  << " is not within the range (0-" << bits_in_pulse
770  << "] allowed for pulse extension. Skip this digi! +++\n";
771  continue;
772  }
773 
774  // Found at least one in-time digi; set chamber_empty to false
775  if (chamber_empty) chamber_empty = false;
776 
777  // make the pulse
778  for (unsigned int bx = bx_times[i];
779  bx < (bx_times[i] + hit_persist); bx++)
780  pulse[i_layer][i_wire] = pulse[i_layer][i_wire] | (1 << bx);
781 
782  // Debug information.
783  if (infoV > 1) {
784  LogTrace("CSCAnodeLCTProcessor")
785  << "Wire digi: layer " << i_layer
786  << " digi #" << ++digi_num << " wire group " << i_wire
787  << " time " << bx_times[i];
788  if (infoV > 2) {
789  std::ostringstream strstrm;
790  for (int i = 1; i <= 32; i++) {
791  strstrm << ((pulse[i_layer][i_wire]>>(32-i)) & 1);
792  }
793  LogTrace("CSCAnodeLCTProcessor") << " Pulse: " << strstrm.str();
794  }
795  }
796  }
797  }
798  }
799  }
800 
801  if (infoV > 1 && !chamber_empty) {
802  dumpDigis(wire);
803  }
804 
805  return chamber_empty;
806 }
int i
Definition: DBlmapReader.cc:9
int quality[CSCConstants::MAX_NUM_WIRES][3]
int first_bx_corrected[CSCConstants::MAX_NUM_WIRES]
int j
Definition: DBlmapReader.cc:9
#define LogTrace(id)
int first_bx[CSCConstants::MAX_NUM_WIRES]
void dumpDigis(const std::vector< int > wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]) const
unsigned int pulse[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]
tuple size
Write out results.
std::vector< CSCALCTDigi > CSCAnodeLCTProcessor::readoutALCTs ( )

Returns vector of ALCTs in the read-out time window, if any.

Definition at line 1627 of file CSCAnodeLCTProcessor.cc.

References early_tbins, fifo_pretrig, getALCTs(), infoV, l1a_window_width, LogDebug, and MAX_ALCT_BINS.

1627  {
1628  std::vector<CSCALCTDigi> tmpV;
1629 
1630  // The number of LCT bins in the read-out is given by the
1631  // l1a_window_width parameter, but made even by setting the LSB of
1632  // l1a_window_width to 0.
1633  static int lct_bins =
1634  // (l1a_window_width%2 == 0) ? l1a_window_width : l1a_window_width-1;
1636  static int late_tbins = early_tbins + lct_bins;
1637 
1638  static int ifois = 0;
1639  if (ifois == 0) {
1640 
1641  //std::cout<<"ALCT early_tbins="<<early_tbins<<" lct_bins="<<lct_bins<<" l1a_window_width="<<l1a_window_width<<" late_tbins="<<late_tbins<<std::endl;
1642  //std::cout<<"**** ALCT readoutALCTs config dump ****"<<std::endl;
1643  //dumpConfigParams();
1644 
1645  if (infoV >= 0 && early_tbins < 0) {
1646  edm::LogWarning("L1CSCTPEmulatorSuspiciousParameters")
1647  << "+++ fifo_pretrig = " << fifo_pretrig
1648  << "; in-time ALCTs are not getting read-out!!! +++" << "\n";
1649  }
1650 
1651  if (late_tbins > MAX_ALCT_BINS-1) {
1652  if (infoV >= 0) edm::LogWarning("L1CSCTPEmulatorSuspiciousParameters")
1653  << "+++ Allowed range of time bins, [0-" << late_tbins
1654  << "] exceeds max allowed, " << MAX_ALCT_BINS-1 << " +++\n"
1655  << "+++ Set late_tbins to max allowed +++\n";
1656  late_tbins = MAX_ALCT_BINS-1;
1657  }
1658  ifois = 1;
1659  }
1660 
1661  // Start from the vector of all found ALCTs and select those within
1662  // the ALCT*L1A coincidence window.
1663  std::vector<CSCALCTDigi> all_alcts = getALCTs();
1664  for (std::vector <CSCALCTDigi>::const_iterator plct = all_alcts.begin();
1665  plct != all_alcts.end(); plct++) {
1666  if (!plct->isValid()) continue;
1667 
1668  int bx = (*plct).getBX();
1669  // Skip ALCTs found too early relative to L1Accept.
1670  if (bx <= early_tbins) {
1671  if (infoV > 1) LogDebug("CSCAnodeLCTProcessor")
1672  << " Do not report ALCT on keywire " << plct->getKeyWG()
1673  << ": found at bx " << bx << ", whereas the earliest allowed bx is "
1674  << early_tbins+1;
1675  continue;
1676  }
1677 
1678  // Skip ALCTs found too late relative to L1Accept.
1679  if (bx > late_tbins) {
1680  if (infoV > 1) LogDebug("CSCAnodeLCTProcessor")
1681  << " Do not report ALCT on keywire " << plct->getKeyWG()
1682  << ": found at bx " << bx << ", whereas the latest allowed bx is "
1683  << late_tbins;
1684  continue;
1685  }
1686 
1687  tmpV.push_back(*plct);
1688  }
1689  return tmpV;
1690 }
#define LogDebug(id)
std::vector< CSCALCTDigi > getALCTs()
void CSCAnodeLCTProcessor::readWireDigis ( std::vector< int >  wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])
private

ALCT algorithm methods.

Definition at line 679 of file CSCAnodeLCTProcessor.cc.

References begin, digiV, fifo_tbins, i, infoV, LogTrace, CSCConstants::NUM_LAYERS, and numWireGroups.

Referenced by run().

679  {
680  /* Gets wire times from the wire digis and fills wire[][] vector */
681 
682  // Loop over all 6 layers.
683  for (int i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++) {
684  // Loop over all digis in the layer and find the wireGroup and bx
685  // time for each.
686  for (std::vector<CSCWireDigi>::iterator pld = digiV[i_layer].begin();
687  pld != digiV[i_layer].end(); pld++) {
688  int i_wire = pld->getWireGroup()-1;
689  std::vector<int> bx_times = pld->getTimeBinsOn();
690 
691  // Check that the wires and times are appropriate.
692  if (i_wire < 0 || i_wire >= numWireGroups) {
693  if (infoV >= 0) edm::LogWarning("L1CSCTPEmulatorWrongInput")
694  << "+++ Found wire digi with wrong wire number = " << i_wire
695  << " (max wires = " << numWireGroups << "); skipping it... +++\n";
696  continue;
697  }
698  // Accept digis in expected time window. Total number of time
699  // bins in DAQ readout is given by fifo_tbins, which thus
700  // determines the maximum length of time interval. Anode raw
701  // hits in DAQ readout start (fifo_pretrig - 6) clocks before
702  // L1Accept. If times earlier than L1Accept were recorded, we
703  // use them since they can modify the ALCTs found later, via
704  // ghost-cancellation logic.
705  int last_time = -999;
706  if (bx_times.size() == fifo_tbins) {
707  wire[i_layer][i_wire].push_back(0);
708  wire[i_layer][i_wire].push_back(6);
709  }
710  else {
711  for (unsigned int i = 0; i < bx_times.size(); i++) {
712  // Find rising edge change
713  if (i > 0 && bx_times[i] == (bx_times[i-1]+1)) continue;
714  if (bx_times[i] < static_cast<int>(fifo_tbins)) {
715  if (infoV > 2) LogTrace("CSCAnodeLCTProcessor")
716  << "Digi on layer " << i_layer << " wire " << i_wire
717  << " at time " << bx_times[i];
718 
719  // Finally save times of hit wires. One shot module will
720  // not restart if a new pulse comes before the expiration
721  // of the 6-bx period.
722  if (last_time < 0 || ((bx_times[i]-last_time) >= 6) ) {
723  wire[i_layer][i_wire].push_back(bx_times[i]);
724  last_time = bx_times[i];
725  }
726  }
727  else {
728  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
729  << "+++ Skipping wire digi: wire = " << i_wire
730  << " layer = " << i_layer << ", bx = " << bx_times[i] << " +++";
731  }
732  }
733  }
734  }
735  }
736 }
int i
Definition: DBlmapReader.cc:9
#define LogTrace(id)
#define begin
Definition: vmac.h:30
std::vector< CSCWireDigi > digiV[CSCConstants::NUM_LAYERS]
std::vector< CSCALCTDigi > CSCAnodeLCTProcessor::run ( const CSCWireDigiCollection wiredc)

Runs the LCT processor code. Called in normal running – gets info from a collection of wire digis.

Definition at line 492 of file CSCAnodeLCTProcessor.cc.

References CSCTriggerGeomManager::chamber(), dumpConfigParams(), relativeConstraints::empty, CSCLayer::geometry(), CSCTriggerGeometry::get(), getALCTs(), getDigis(), infoV, isSLHC, CSCChamber::layer(), CSCConstants::MAX_NUM_WIRES, nplanes_hit_accel_pattern, nplanes_hit_pattern, CSCConstants::NUM_LAYERS, CSCLayerGeometry::numberOfWireGroups(), numWireGroups, readWireDigis(), theChamber, theEndcap, theRing, theSector, theStation, theSubsector, and theTrigChamber.

492  {
493  // This is the main routine for normal running. It gets wire times
494  // from the wire digis and then passes them on to another run() function.
495 
496  // clear(); // redundant; called by L1MuCSCMotherboard.
497 
498  static bool config_dumped = false;
499  if ((infoV > 0 || isSLHC) && !config_dumped) {
500  //std::cout<<"**** ALCT run parameters dump ****"<<std::endl;
502  config_dumped = true;
503  }
504 
505 
506  // Get the number of wire groups for the given chamber. Do it only once
507  // per chamber.
508  if (numWireGroups == 0) {
510  CSCChamber* chamber = theGeom->chamber(theEndcap, theStation, theSector,
512  if (chamber) {
513  numWireGroups = chamber->layer(1)->geometry()->numberOfWireGroups();
515  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorSetupError")
516  << "+++ Number of wire groups, " << numWireGroups
517  << " found in ME" << ((theEndcap == 1) ? "+" : "-")
518  << theStation << "/" << theRing << "/" << theChamber
519  << " (sector " << theSector << " subsector " << theSubsector
520  << " trig id. " << theTrigChamber << ")"
521  << " exceeds max expected, " << CSCConstants::MAX_NUM_WIRES
522  << " +++\n"
523  << "+++ CSC geometry looks garbled; no emulation possible +++\n";
524  numWireGroups = -1;
525  }
526  }
527  else {
528  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorSetupError")
529  << "+++ ME" << ((theEndcap == 1) ? "+" : "-")
530  << theStation << "/" << theRing << "/" << theChamber
531  << " (sector " << theSector << " subsector " << theSubsector
532  << " trig id. " << theTrigChamber << ")"
533  << " is not defined in current geometry! +++\n"
534  << "+++ CSC geometry looks garbled; no emulation possible +++\n";
535  numWireGroups = -1;
536  }
537  }
538 
539  if (numWireGroups < 0) {
540  if (infoV >= 0) edm::LogError("L1CSCTPEmulatorSetupError")
541  << "+++ ME" << ((theEndcap == 1) ? "+" : "-")
542  << theStation << "/" << theRing << "/" << theChamber
543  << " (sector " << theSector << " subsector " << theSubsector
544  << " trig id. " << theTrigChamber << "):"
545  << " numWireGroups = " << numWireGroups
546  << "; ALCT emulation skipped! +++";
547  std::vector<CSCALCTDigi> emptyV;
548  return emptyV;
549  }
550 
551  // Get wire digis in this chamber from wire digi collection.
552  bool noDigis = getDigis(wiredc);
553 
554  if (!noDigis) {
555  // First get wire times from the wire digis.
556  std::vector<int>
558  readWireDigis(wire);
559 
560  // Pass an array of wire times on to another run() doing the LCT search.
561  // If the number of layers containing digis is smaller than that
562  // required to trigger, quit right away.
563  const unsigned int min_layers =
564  (nplanes_hit_accel_pattern == 0) ?
569  );
570 
571  unsigned int layersHit = 0;
572  for (int i_layer = 0; i_layer < CSCConstants::NUM_LAYERS; i_layer++) {
573  for (int i_wire = 0; i_wire < numWireGroups; i_wire++) {
574  if (!wire[i_layer][i_wire].empty()) {layersHit++; break;}
575  }
576  }
577  if (layersHit >= min_layers) run(wire);
578  }
579 
580  // Return vector of all found ALCTs.
581  std::vector<CSCALCTDigi> tmpV = getALCTs();
582  return tmpV;
583 }
void readWireDigis(std::vector< int > wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])
CSCChamber * chamber(unsigned endcap, unsigned station, unsigned sector, unsigned subsector, unsigned tcscid) const
Return the CSCChamber for a corresponding endcap/station/sector/subsector/trigger cscid...
bool getDigis(const CSCWireDigiCollection *wiredc)
const unsigned theTrigChamber
int numberOfWireGroups() const
static CSCTriggerGeomManager * get()
const CSCLayer * layer(CSCDetId id) const
Return the layer corresponding to the given id.
Definition: CSCChamber.cc:39
unsigned int nplanes_hit_accel_pattern
std::vector< CSCALCTDigi > run(const CSCWireDigiCollection *wiredc)
const CSCLayerGeometry * geometry() const
Definition: CSCLayer.h:47
std::vector< CSCALCTDigi > getALCTs()
void CSCAnodeLCTProcessor::run ( const std::vector< int >  wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])

Runs the LCT processor code. Called in normal running or in testing mode.

Definition at line 585 of file CSCAnodeLCTProcessor.cc.

References drift_delay, fifo_tbins, first_bx, ghostCancellationLogic(), ghostCancellationLogicSLHC(), infoV, isSLHC, lctSearch(), numWireGroups, patternDetection(), pretrig_extra_deadtime, preTrigger(), pulseExtension(), and showPatterns().

585  {
586  // This version of the run() function can either be called in a standalone
587  // test, being passed the time array, or called by the run() function above.
588  // It gets wire times from an input array and then loops over the keywires.
589  // All found LCT candidates are sorted and the best two are retained.
590 
591  bool trigger = false;
592 
593  // Check if there are any in-time hits and do the pulse extension.
594  bool chamber_empty = pulseExtension(wire);
595 
596  // Only do the rest of the processing if chamber is not empty.
597  // Stop drift_delay bx's short of fifo_tbins since at later bx's we will
598  // not have a full set of hits to start pattern search anyway.
599  unsigned int stop_bx = fifo_tbins - drift_delay;
600  if (!chamber_empty) {
601  for (int i_wire = 0; i_wire < numWireGroups; i_wire++) {
602  unsigned int start_bx = 0;
603  // Allow for more than one pass over the hits in the time window.
604  while (start_bx < stop_bx) {
605  if (preTrigger(i_wire, start_bx)) {
606  if (infoV > 2) showPatterns(i_wire);
607  if (patternDetection(i_wire)) {
608  trigger = true;
609  break;
610  }
611  else {
612  // Assume that the earliest time when another pre-trigger can
613  // occur in case pattern detection failed is bx_pretrigger+4:
614  // this seems to match the data.
615  start_bx = first_bx[i_wire] + drift_delay + pretrig_extra_deadtime;
616  }
617  }
618  else {
619  break;
620  }
621  }
622  }
623  }
624 
625  // Do the rest only if there is at least one trigger candidate.
626  if (trigger) {
628  else ghostCancellationLogic();
629  lctSearch();
630  }
631 }
void showPatterns(const int key_wire)
bool preTrigger(const int key_wire, const int start_bx)
bool pulseExtension(const std::vector< int > wire[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES])
int first_bx[CSCConstants::MAX_NUM_WIRES]
bool patternDetection(const int key_wire)
unsigned int pretrig_extra_deadtime
void CSCAnodeLCTProcessor::setConfigParameters ( const CSCDBL1TPParameters conf)

Sets configuration parameters obtained via EventSetup mechanism.

Definition at line 352 of file CSCAnodeLCTProcessor.cc.

References accel_mode, CSCDBL1TPParameters::alctAccelMode(), CSCDBL1TPParameters::alctDriftDelay(), CSCDBL1TPParameters::alctFifoPretrig(), CSCDBL1TPParameters::alctFifoTbins(), CSCDBL1TPParameters::alctL1aWindowWidth(), CSCDBL1TPParameters::alctNplanesHitAccelPattern(), CSCDBL1TPParameters::alctNplanesHitAccelPretrig(), CSCDBL1TPParameters::alctNplanesHitPattern(), CSCDBL1TPParameters::alctNplanesHitPretrig(), CSCDBL1TPParameters::alctTrigMode(), checkConfigParameters(), drift_delay, dumpConfigParams(), fifo_pretrig, fifo_tbins, l1a_window_width, nplanes_hit_accel_pattern, nplanes_hit_accel_pretrig, nplanes_hit_pattern, nplanes_hit_pretrig, and trig_mode.

352  {
353  static bool config_dumped = false;
354 
355  fifo_tbins = conf->alctFifoTbins();
356  fifo_pretrig = conf->alctFifoPretrig();
357  drift_delay = conf->alctDriftDelay();
362  trig_mode = conf->alctTrigMode();
363  accel_mode = conf->alctAccelMode();
365 
366  // Check and print configuration parameters.
368  if (!config_dumped) {
369  //std::cout<<"**** ALCT setConfigParam parameters dump ****"<<std::endl;
371  config_dumped = true;
372  }
373 }
unsigned int alctDriftDelay() const
unsigned int alctNplanesHitPretrig() const
unsigned int alctL1aWindowWidth() const
unsigned int alctTrigMode() const
unsigned int alctAccelMode() const
unsigned int alctFifoPretrig() const
unsigned int alctNplanesHitAccelPretrig() const
unsigned int alctNplanesHitAccelPattern() const
unsigned int alctNplanesHitPattern() const
unsigned int nplanes_hit_accel_pattern
unsigned int nplanes_hit_accel_pretrig
unsigned int alctFifoTbins() const
void CSCAnodeLCTProcessor::setDefaultConfigParameters ( )
private

Set default values for configuration parameters.

Definition at line 337 of file CSCAnodeLCTProcessor.cc.

References accel_mode, def_accel_mode, def_drift_delay, def_fifo_pretrig, def_fifo_tbins, def_l1a_window_width, def_nplanes_hit_accel_pattern, def_nplanes_hit_accel_pretrig, def_nplanes_hit_pattern, def_nplanes_hit_pretrig, def_trig_mode, drift_delay, fifo_pretrig, fifo_tbins, l1a_window_width, nplanes_hit_accel_pattern, nplanes_hit_accel_pretrig, nplanes_hit_pattern, nplanes_hit_pretrig, and trig_mode.

Referenced by CSCAnodeLCTProcessor().

337  {
338  // Set default values for configuration parameters.
349 }
static const unsigned int def_drift_delay
static const unsigned int def_fifo_tbins
static const unsigned int def_accel_mode
static const unsigned int def_nplanes_hit_accel_pretrig
static const unsigned int def_fifo_pretrig
static const unsigned int def_nplanes_hit_pattern
static const unsigned int def_l1a_window_width
static const unsigned int def_trig_mode
static const unsigned int def_nplanes_hit_accel_pattern
unsigned int nplanes_hit_accel_pattern
static const unsigned int def_nplanes_hit_pretrig
unsigned int nplanes_hit_accel_pretrig
void CSCAnodeLCTProcessor::setRing ( unsigned  r)
inline

set ring number. Important only for ME1a

Definition at line 77 of file CSCAnodeLCTProcessor.h.

References alignCSCRings::r, and theRing.

void CSCAnodeLCTProcessor::showPatterns ( const int  key_wire)
private

Definition at line 1705 of file CSCAnodeLCTProcessor.cc.

References i, LogTrace, MESelection, CSCConstants::NUM_ALCT_PATTERNS, NUM_PATTERN_WIRES, numWireGroups, pattern_envelope, and pattern_mask.

Referenced by run().

1705  {
1706  /* Method to test the pretrigger */
1707  for (int i_pattern = 0; i_pattern < CSCConstants::NUM_ALCT_PATTERNS;
1708  i_pattern++) {
1709  std::ostringstream strstrm_header;
1710  LogTrace("CSCAnodeLCTProcessor")
1711  << "\n" << "Pattern: " << i_pattern << " Key wire: " << key_wire;
1712  for (int i = 1; i <= 32; i++) {
1713  strstrm_header << ((32-i)%10);
1714  }
1715  LogTrace("CSCAnodeLCTProcessor") << strstrm_header.str();
1716  for (int i_wire = 0; i_wire < NUM_PATTERN_WIRES; i_wire++) {
1717  if (pattern_mask[i_pattern][i_wire] != 0) {
1718  std::ostringstream strstrm_pulse;
1719  int this_layer = pattern_envelope[0][i_wire];
1720  int this_wire = pattern_envelope[1+MESelection][i_wire]+key_wire;
1721  if (this_wire >= 0 && this_wire < numWireGroups) {
1722  for (int i = 1; i <= 32; i++) {
1723  strstrm_pulse << ((pulse[this_layer][this_wire]>>(32-i)) & 1);
1724  }
1725  LogTrace("CSCAnodeLCTProcessor")
1726  << strstrm_pulse.str() << " on layer " << this_layer;
1727  }
1728  }
1729  }
1730  LogTrace("CSCAnodeLCTProcessor")
1731  << "-------------------------------------------";
1732  }
1733 }
int i
Definition: DBlmapReader.cc:9
static const int pattern_envelope[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
#define LogTrace(id)
int pattern_mask[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
void CSCAnodeLCTProcessor::trigMode ( const int  key_wire)
private

Definition at line 1479 of file CSCAnodeLCTProcessor.cc.

References infoV, LogTrace, quality, and trig_mode.

Referenced by lctSearch().

1479  {
1480  /* Function which enables/disables either collision or accelerator tracks.
1481  The function uses the trig_mode parameter to decide. */
1482 
1483  switch(trig_mode) {
1484  default:
1485  case 0:
1486  // Enables both collision and accelerator tracks
1487  break;
1488  case 1:
1489  // Disables collision tracks
1490  if (quality[key_wire][1] > 0) {
1491  quality[key_wire][1] = 0;
1492  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1493  << "trigMode(): collision track " << key_wire << " disabled" << "\n";
1494  }
1495  break;
1496  case 2:
1497  // Disables accelerator tracks
1498  if (quality[key_wire][0] > 0) {
1499  quality[key_wire][0] = 0;
1500  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1501  << "trigMode(): accelerator track " << key_wire << " disabled" << "\n";
1502  }
1503  break;
1504  case 3:
1505  // Disables collision track if there is an accelerator track found
1506  // in the same wire group at the same time
1507  if (quality[key_wire][0] > 0 && quality[key_wire][1] > 0) {
1508  quality[key_wire][1] = 0;
1509  if (infoV > 1) LogTrace("CSCAnodeLCTProcessor")
1510  << "trigMode(): collision track " << key_wire << " disabled" << "\n";
1511  }
1512  break;
1513  }
1514 }
int quality[CSCConstants::MAX_NUM_WIRES][3]
#define LogTrace(id)

Member Data Documentation

unsigned int CSCAnodeLCTProcessor::accel_mode
private
CSCALCTDigi CSCAnodeLCTProcessor::bestALCT[MAX_ALCT_BINS]

Best LCTs in this chamber, as found by the processor. In old ALCT algorithms, up to two best ALCT per Level-1 accept window had been reported. In the ALCT-2006 algorithms, up to two best ALCTs PER EVERY TIME BIN in Level-1 accept window are reported.

Definition at line 65 of file CSCAnodeLCTProcessor.h.

Referenced by clear(), getALCTs(), and lctSearch().

const unsigned int CSCAnodeLCTProcessor::def_accel_mode = 0
staticprivate

Definition at line 169 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_drift_delay = 2
staticprivate

Definition at line 165 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_fifo_pretrig = 10
staticprivate

Definition at line 164 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_fifo_tbins = 16
staticprivate

Default values of configuration parameters.

Definition at line 164 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_l1a_window_width = 7
staticprivate

Definition at line 170 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_nplanes_hit_accel_pattern = 4
staticprivate

Definition at line 168 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_nplanes_hit_accel_pretrig = 2
staticprivate

Definition at line 167 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_nplanes_hit_pattern = 4
staticprivate

Definition at line 166 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_nplanes_hit_pretrig = 2
staticprivate

Definition at line 166 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

const unsigned int CSCAnodeLCTProcessor::def_trig_mode = 2
staticprivate

Definition at line 169 of file CSCAnodeLCTProcessor.h.

Referenced by checkConfigParameters(), and setDefaultConfigParameters().

std::vector<CSCWireDigi> CSCAnodeLCTProcessor::digiV[CSCConstants::NUM_LAYERS]
private

Definition at line 114 of file CSCAnodeLCTProcessor.h.

Referenced by getDigis(), and readWireDigis().

bool CSCAnodeLCTProcessor::disableME1a
private

SLHC: special configuration parameters for ME1a treatment

Definition at line 136 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), and getDigis().

unsigned int CSCAnodeLCTProcessor::drift_delay
private
int CSCAnodeLCTProcessor::early_tbins
private

SLHC: separate handle for early time bins

Definition at line 139 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), and readoutALCTs().

unsigned int CSCAnodeLCTProcessor::fifo_pretrig
private
unsigned int CSCAnodeLCTProcessor::fifo_tbins
private
int CSCAnodeLCTProcessor::first_bx[CSCConstants::MAX_NUM_WIRES]
private
int CSCAnodeLCTProcessor::first_bx_corrected[CSCConstants::MAX_NUM_WIRES]
private
int CSCAnodeLCTProcessor::ghost_cancellation_bx_depth
private

SLHC: delta BX time depth for ghostCancellationLogic

Definition at line 142 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), ghostCancellationLogic(), and ghostCancellationLogicSLHC().

bool CSCAnodeLCTProcessor::ghost_cancellation_side_quality
private

SLHC: whether to consider ALCT candidates' qualities while doing ghostCancellationLogic on +-1 wire groups

Definition at line 146 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), ghostCancellationLogic(), and ghostCancellationLogicSLHC().

unsigned int CSCAnodeLCTProcessor::hit_persist
private

SLHC: hit persistency length

Definition at line 133 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), patternDetection(), and pulseExtension().

int CSCAnodeLCTProcessor::infoV
private

Verbosity level: 0: no print (default). 1: print only ALCTs found. 2: info at every step of the algorithm. 3: add special-purpose prints.

Definition at line 92 of file CSCAnodeLCTProcessor.h.

Referenced by accelMode(), bestTrackSelector(), checkConfigParameters(), CSCAnodeLCTProcessor(), getDigis(), ghostCancellationLogic(), ghostCancellationLogicSLHC(), lctSearch(), patternDetection(), preTrigger(), pulseExtension(), readoutALCTs(), readWireDigis(), run(), and trigMode().

bool CSCAnodeLCTProcessor::isME11
private

Definition at line 106 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), and getDigis().

bool CSCAnodeLCTProcessor::isMTCC
private

Flag for MTCC data (i.e., "open" patterns).

Definition at line 118 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), and loadPatternMask().

bool CSCAnodeLCTProcessor::isSLHC
private

Flag for SLHC studies.

Definition at line 124 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), and run().

bool CSCAnodeLCTProcessor::isTMB07
private

Use TMB07 flag for DAQ-2006 version (implemented in late 2007).

Definition at line 121 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), lctSearch(), loadPatternMask(), and patternDetection().

unsigned int CSCAnodeLCTProcessor::l1a_window_width
private
int CSCAnodeLCTProcessor::MESelection
private
bool CSCAnodeLCTProcessor::narrow_mask_r1
private

SLHC: whether to use narrow pattern mask for the rings close to the beam

Definition at line 155 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), and loadPatternMask().

unsigned int CSCAnodeLCTProcessor::nplanes_hit_accel_pattern
private
unsigned int CSCAnodeLCTProcessor::nplanes_hit_accel_pretrig
private
unsigned int CSCAnodeLCTProcessor::nplanes_hit_pattern
private
unsigned int CSCAnodeLCTProcessor::nplanes_hit_pretrig
private
int CSCAnodeLCTProcessor::numWireGroups
private
const int CSCAnodeLCTProcessor::pattern_envelope
static
Initial value:
= {
{ 0, 0, 0,
1, 1,
2,
3, 3,
4, 4, 4,
5, 5, 5},
{-2, -1, 0,
-1, 0,
0,
0, 1,
0, 1, 2,
0, 1, 2},
{2, 1, 0,
1, 0,
0,
0, -1,
0, -1, -2,
0, -1, -2}
}

Definition at line 81 of file CSCAnodeLCTProcessor.h.

Referenced by patternDetection(), preTrigger(), and showPatterns().

int CSCAnodeLCTProcessor::pattern_mask[CSCConstants::NUM_ALCT_PATTERNS][NUM_PATTERN_WIRES]
private

Chosen pattern mask.

Definition at line 173 of file CSCAnodeLCTProcessor.h.

Referenced by loadPatternMask(), patternDetection(), preTrigger(), and showPatterns().

const int CSCAnodeLCTProcessor::pattern_mask_open
static
Initial value:
= {
{0, 0, 1,
0, 1,
1,
1, 0,
1, 0, 0,
1, 0, 0},
{1, 1, 1,
1, 1,
1,
1, 1,
1, 1, 1,
1, 1, 1},
{1, 1, 1,
1, 1,
1,
1, 1,
1, 1, 1,
1, 1, 1}
}

Definition at line 83 of file CSCAnodeLCTProcessor.h.

Referenced by loadPatternMask().

const int CSCAnodeLCTProcessor::pattern_mask_r1
static
Initial value:
= {
{0, 0, 1,
0, 1,
1,
1, 0,
1, 0, 0,
1, 0, 0},
{0, 1, 1,
1, 1,
1,
1, 0,
1, 1, 0,
1, 1, 0},
{0, 1, 1,
1, 1,
1,
1, 0,
1, 1, 0,
1, 1, 0}
}

Definition at line 84 of file CSCAnodeLCTProcessor.h.

Referenced by loadPatternMask().

const int CSCAnodeLCTProcessor::pattern_mask_slim
static
Initial value:
= {
{0, 0, 1,
0, 1,
1,
1, 0,
1, 0, 0,
1, 0, 0},
{0, 1, 0,
1, 1,
1,
1, 0,
0, 1, 0,
0, 1, 0},
{1, 1, 0,
1, 1,
1,
1, 1,
0, 1, 1,
0, 0, 1}
}

Definition at line 82 of file CSCAnodeLCTProcessor.h.

Referenced by loadPatternMask().

unsigned int CSCAnodeLCTProcessor::pretrig_extra_deadtime
private

SLHC: deadtime clocks after pretrigger (extra in addition to drift_delay)

Definition at line 149 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), and run().

unsigned int CSCAnodeLCTProcessor::pulse[CSCConstants::NUM_LAYERS][CSCConstants::MAX_NUM_WIRES]
private

Definition at line 115 of file CSCAnodeLCTProcessor.h.

Referenced by patternDetection(), preTrigger(), and pulseExtension().

int CSCAnodeLCTProcessor::quality[CSCConstants::MAX_NUM_WIRES][3]
private
bool CSCAnodeLCTProcessor::runME21ILT_
private

SLHC: run the ALCT processor for the Phase-II ME2/1 integrated local trigger

Definition at line 158 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), ghostCancellationLogicSLHC(), and patternDetection().

bool CSCAnodeLCTProcessor::runME3141ILT_
private

SLHC: run the ALCT processor for the Phase-II ME3/1(ME4/1) integrated local trigger

Definition at line 161 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), ghostCancellationLogicSLHC(), and patternDetection().

CSCALCTDigi CSCAnodeLCTProcessor::secondALCT[MAX_ALCT_BINS]

Second best LCTs in this chamber, as found by the processor.

Definition at line 68 of file CSCAnodeLCTProcessor.h.

Referenced by clear(), getALCTs(), and lctSearch().

unsigned CSCAnodeLCTProcessor::theChamber
private

Definition at line 104 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), dumpDigis(), getDigis(), lctSearch(), and run().

const unsigned CSCAnodeLCTProcessor::theEndcap
private

Chamber id (trigger-type labels).

Definition at line 95 of file CSCAnodeLCTProcessor.h.

Referenced by dumpDigis(), getDigis(), lctSearch(), and run().

unsigned CSCAnodeLCTProcessor::theRing
private

ring number. Only matters for ME1a

Definition at line 102 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), dumpDigis(), getDigis(), lctSearch(), loadPatternMask(), run(), and setRing().

const unsigned CSCAnodeLCTProcessor::theSector
private

Definition at line 97 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), getDigis(), lctSearch(), and run().

const unsigned CSCAnodeLCTProcessor::theStation
private

Definition at line 96 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), dumpDigis(), getDigis(), lctSearch(), and run().

const unsigned CSCAnodeLCTProcessor::theSubsector
private

Definition at line 98 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), getDigis(), lctSearch(), and run().

const unsigned CSCAnodeLCTProcessor::theTrigChamber
private

Definition at line 99 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), getDigis(), lctSearch(), and run().

const int CSCAnodeLCTProcessor::time_weights
static
Initial value:
=
{ 0, 1, 1,
1, 2,
2,
2, 1,
2, 1, 0,
1, 1, 0}

Definition at line 85 of file CSCAnodeLCTProcessor.h.

unsigned int CSCAnodeLCTProcessor::trig_mode
private
bool CSCAnodeLCTProcessor::use_corrected_bx
private

SLHC: whether to use corrected_bx instead of pretrigger BX

Definition at line 152 of file CSCAnodeLCTProcessor.h.

Referenced by CSCAnodeLCTProcessor(), ghostCancellationLogicSLHC(), and lctSearch().