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EcalPedOffset.cc
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1 //TODO: fix header here?
11 #include <memory>
12 #include <iostream>
13 #include <fstream>
14 
16 
18 
24 
26 
29 
33 
34 using namespace cms;
35 using namespace edm;
36 
39  m_barrelDigiCollection (paramSet.getParameter<edm::InputTag> ("EBdigiCollection")),
40  m_endcapDigiCollection (paramSet.getParameter<edm::InputTag> ("EEdigiCollection")),
41  m_headerCollection (paramSet.getParameter<edm::InputTag> ("headerCollection")),
42  m_xmlFile (paramSet.getParameter<std::string> ("xmlFile")),
43  m_DACmin (paramSet.getUntrackedParameter<int> ("DACmin",0)),
44  m_DACmax (paramSet.getUntrackedParameter<int> ("DACmax",256)),
45  m_RMSmax (paramSet.getUntrackedParameter<double> ("RMSmax",2)),
46  m_bestPed (paramSet.getUntrackedParameter<int> ("bestPed",200)),
47  m_dbHostName (paramSet.getUntrackedParameter<std::string> ("dbHostName","0")),
48  m_dbName (paramSet.getUntrackedParameter<std::string> ("dbName","0")),
49  m_dbUserName (paramSet.getUntrackedParameter<std::string> ("dbUserName")),
50  m_dbPassword (paramSet.getUntrackedParameter<std::string> ("dbPassword")),
51  m_dbHostPort (paramSet.getUntrackedParameter<int> ("dbHostPort",1521)),
52  m_create_moniov (paramSet.getUntrackedParameter<bool>("createMonIOV", false)),
53  m_location (paramSet.getUntrackedParameter<std::string>("location", "H4")),
54  m_run(-1),
55  m_plotting (paramSet.getParameter<std::string> ("plotting")),
56  m_maxSlopeAllowed_ (paramSet.getUntrackedParameter<double> ("maxSlopeAllowed",-29)),
57  m_minSlopeAllowed_ (paramSet.getUntrackedParameter<double> ("minSlopeAllowed",-18)),
58  m_maxChi2OverNDFAllowed_ (paramSet.getUntrackedParameter<double> ("maxChi2OverNDF",5))
59 {
60  edm::LogInfo ("EcalPedOffset") << " reading "
61  << " m_DACmin: " << m_DACmin
62  << " m_DACmax: " << m_DACmax
63  << " m_RMSmax: " << m_RMSmax
64  << " m_bestPed: " << m_bestPed ;
65 }
66 
67 
68 // -----------------------------------------------------------------------------
69 
70 
73 {
74  for (std::map<int,TPedValues*>::iterator mapIt = m_pedValues.begin ();
75  mapIt != m_pedValues.end ();
76  ++mapIt)
77  delete mapIt->second ;
78  for (std::map<int,TPedResult*>::iterator mapIt = m_pedResult.begin ();
79  mapIt != m_pedResult.end ();
80  ++mapIt)
81  delete mapIt->second ;
82 }
83 
84 
85 // -----------------------------------------------------------------------------
86 
87 
89 void EcalPedOffset::beginRun (Run const &, EventSetup const& eventSetup)
90 {
91  LogDebug ("EcalPedOffset") << "entering beginRun..." ;
92 
94  eventSetup.get< EcalMappingRcd >().get(handle);
95  ecalElectronicsMap_ = handle.product();
96 
97 }
98 
99 
100 // -----------------------------------------------------------------------------
101 
102 
105  EventSetup const& eventSetup)
106 {
107  LogDebug ("EcalPedOffset") << "entering analyze ...";
108 
109  // get the headers
110  // (one header for each supermodule)
112  event.getByLabel(m_headerCollection, DCCHeaders);
113 
114  std::map <int,int> DACvalues;
115 
116  if(m_run==-1)
117  m_run = event.id().run();
118 
119  // loop over the headers
120  for (EcalRawDataCollection::const_iterator headerItr= DCCHeaders->begin();
121  headerItr != DCCHeaders->end ();
122  ++headerItr)
123  {
124  EcalDCCHeaderBlock::EcalDCCEventSettings settings = headerItr->getEventSettings();
125  int FEDid = 600+headerItr->id();
126  DACvalues[FEDid] = settings.ped_offset;
127  LogDebug("EcalPedOffset") << "Found FED: " << FEDid << " in DCC header";
128  }
129 
130  bool barrelDigisFound = true;
131  bool endcapDigisFound = true;
132  // get the barrel digis
133  // (one digi for each crystal)
134  Handle<EBDigiCollection> barrelDigis;
135  event.getByLabel(m_barrelDigiCollection, barrelDigis);
136  if(!barrelDigis.isValid())
137  {
138  edm::LogError ("EcalPedOffset") << "Error! can't get the product "
139  << m_barrelDigiCollection << "; not reading barrel digis";
140  barrelDigisFound = false;
141  }
142 
143  if(barrelDigis->size()==0)
144  {
145  edm::LogInfo("EcalPedOffset") << "Size of EBDigiCollection is zero;"
146  << " not reading barrel digis";
147  barrelDigisFound = false;
148  }
149 
150  // get the endcap digis
151  // (one digi for each crystal)
152  Handle<EEDigiCollection> endcapDigis;
153  event.getByLabel(m_endcapDigiCollection, endcapDigis);
154  if(!endcapDigis.isValid())
155  {
156  edm::LogError ("EcalPedOffset") << "Error! can't get the product "
157  << m_endcapDigiCollection << "; not reading endcap digis";
158  endcapDigisFound = false;
159  }
160 
161  if(endcapDigis->size()==0)
162  {
163  edm::LogInfo("EcalPedOffset") << "Size of EEDigiCollection is zero;"
164  << " not reading endcap digis";
165  endcapDigisFound = false;
166  }
167 
168 
169  if(barrelDigisFound)
170  readDACs(barrelDigis, DACvalues);
171  if(endcapDigisFound)
172  readDACs(endcapDigis, DACvalues);
173  if(!barrelDigisFound && !endcapDigisFound)
174  edm::LogError ("EcalPedOffset") << "No digis found in the event!";
175 
176 }
177 
178 
179 // -----------------------------------------------------------------------------
180 
181 
183  const std::map<int,int>& _DACvalues)
184 {
185  std::map<int,int> DACvalues = _DACvalues;
186  // loop over the digis
187  for (EBDigiCollection::const_iterator itdigi = pDigis->begin();
188  itdigi != pDigis->end();
189  ++itdigi)
190  {
191  int gainId = ((EBDataFrame)(*itdigi)).sample(0).gainId();
192  EBDetId detId = EBDetId(itdigi->id());
194  int FEDid = 600+elecId.dccId();
195  int crystalId = detId.ic();
196 
197  //TODO: Behavior here
198  if(DACvalues.find(FEDid)==DACvalues.end())
199  {
200  edm::LogError("EcalPedOffset")
201  << "Error! EB DCCid of digi does not match any DCCid found in DCC headers" << FEDid;
202  }
203 
204  if (!m_pedValues.count(FEDid))
205  {
206  LogDebug("EcalPedOffset") << "Inserting new TPedValues object for FED:" << FEDid;
208  }
209 
210  // loop over the samples
211  for (int iSample = 0; iSample < EcalDataFrame::MAXSAMPLES; ++iSample)
212  {
213  m_pedValues[FEDid]->insert(gainId,
214  crystalId,
215  DACvalues[FEDid],
216  ((EBDataFrame)(*itdigi)).sample(iSample).adc(),
217  crystalId);
218  }
219 
220  } //end loop over digis
221 }
222 
223 // -----------------------------------------------------------------------------
224 
225 
227  const std::map<int,int>& _DACvalues)
228 {
229  std::map<int,int> DACvalues = _DACvalues;
230  // loop over the digis
231  for (EEDigiCollection::const_iterator itdigi = pDigis->begin();
232  itdigi != pDigis->end();
233  ++itdigi)
234  {
235  int gainId = ((EEDataFrame)(*itdigi)).sample(0).gainId();
236  //int gainId = itdigi->sample(0).gainId();
237  EEDetId detId = EEDetId(itdigi->id());
239  int FEDid = 600+elecId.dccId();
240  int crystalId = 25*elecId.towerId()+5*elecId.stripId()+elecId.xtalId();
241  int endcapCrystalId = 100*elecId.towerId()+5*(elecId.stripId()-1)+elecId.xtalId();
242 
243  //TODO: Behavior here
244  if(DACvalues.find(FEDid)==DACvalues.end())
245  {
246  edm::LogError("EcalPedOffset")
247  << "Error! EE DCCid of digi does not match any DCCid found in DCC headers: " << FEDid;
248  }
249 
250  if (!m_pedValues.count(FEDid))
251  {
252  LogDebug("EcalPedOffset") << "Inserting new TPedValues object for FED:" << FEDid;
254  }
255 
256  // loop over the samples
257  for (int iSample = 0; iSample < EcalDataFrame::MAXSAMPLES; ++iSample)
258  {
259  m_pedValues[FEDid]->insert(gainId,
260  crystalId,
261  DACvalues[FEDid],
262  ((EEDataFrame)(*itdigi)).sample(iSample).adc(),
263  endcapCrystalId);
264  }
265 
266  } //end loop over digis
267 }
268 
269 // -----------------------------------------------------------------------------
270 
271 
274 {
275  for (std::map<int,TPedValues*>::const_iterator smPeds = m_pedValues.begin ();
276  smPeds != m_pedValues.end ();
277  ++smPeds)
278  {
279  m_pedResult[smPeds->first] =
280  new TPedResult ((smPeds->second)->terminate (m_DACmin, m_DACmax));
281  }
282  edm::LogInfo ("EcalPedOffset") << " results map size "
283  << m_pedResult.size ();
285 
286  if (m_plotting != '0') makePlots ();
287  if (m_dbHostName != '0') writeDb ();
288 }
289 
290 
291 // -----------------------------------------------------------------------------
292 
293 
297 {
298  LogDebug ("EcalPedOffset") << " entering writeDb ..." ;
299 
300  // connect to the database
301  EcalCondDBInterface* DBconnection ;
302  try
303  {
304  LogInfo("EcalPedOffset") << "Opening DB connection with TNS_ADMIN ...";
306  } catch (std::runtime_error &e) {
307  LogError("EcalPedOffset") << e.what();
308  if ( m_dbHostName.size() != 0 )
309  {
310  try
311  {
312  LogInfo("EcalPedOffset") << "Opening DB connection without TNS_ADMIN ...";
313  DBconnection = new EcalCondDBInterface(m_dbHostName, m_dbName,
315  } catch (std::runtime_error &e) {
316  LogError("EcalPedOffset") << e.what();
317  return;
318  }
319  }
320  else
321  return;
322  }
323 
324  // define the query for RunIOV to get the right place in the database
325  RunTag runtag ;
326  LocationDef locdef ;
327  RunTypeDef rundef ;
328  locdef.setLocation (m_location);
329 
330  runtag.setGeneralTag ("PEDESTAL-OFFSET");
331  rundef.setRunType ("PEDESTAL-OFFSET");
332  //rundef.setRunType ("TEST");
333  //runtag.setGeneralTag ("TEST");
334 
335  runtag.setLocationDef (locdef);
336  runtag.setRunTypeDef (rundef);
337 
338 
339  run_t run = m_run ; //FIXME dal config file
340  //RunIOV runiov = DBconnection->fetchRunIOV (&runtag, run);
341  RunIOV runiov = DBconnection->fetchRunIOV(m_location, run);
342 
343  // MonRunIOV
344  MonVersionDef monverdef ;
345  monverdef.setMonitoringVersion ("test01");
346  MonRunTag montag ;
347  montag.setMonVersionDef (monverdef);
348  montag.setGeneralTag ("CMSSW");
349 
350  subrun_t subrun = 1 ; //hardcoded!
351 
352  MonRunIOV moniov ;
353 
354  try{
355  runtag = runiov.getRunTag();
356  moniov = DBconnection->fetchMonRunIOV(&runtag, &montag, run, subrun);
357  }
358  catch (std::runtime_error &e) {
359  if(m_create_moniov){
360  //if not already in the DB create a new MonRunIOV
361  Tm startSubRun;
362  startSubRun.setToCurrentGMTime();
363  // setup the MonIOV
364  moniov.setRunIOV(runiov);
365  moniov.setSubRunNumber(subrun);
366  moniov.setSubRunStart(startSubRun);
367  moniov.setMonRunTag(montag);
368  LogDebug ("EcalPedOffset") <<" creating a new MonRunIOV" ;
369  }
370  else{
371  edm::LogError ("EcalPedOffset") << " no MonRunIOV existing in the DB" ;
372  edm::LogError ("EcalPedOffset") << " the result will not be stored into the DB" ;
373  if ( DBconnection ) {delete DBconnection;}
374  return;
375  }
376  }
377 
378  // create the table to be filled and the map to be inserted
379  EcalLogicID ecid ;
380  std::map<EcalLogicID, MonPedestalOffsetsDat> DBdataset ;
381  MonPedestalOffsetsDat DBtable ;
382 
383  // fill the table
384 
385  // loop over the super-modules
386  for (std::map<int,TPedResult*>::const_iterator result = m_pedResult.begin ();
387  result != m_pedResult.end ();
388  ++result)
389  {
390  // loop over the crystals
391  for (int xtal = 0 ; xtal<1700 ; ++xtal)
392  {
393  DBtable.setDACG1 (result->second->m_DACvalue[2][xtal]);
394  DBtable.setDACG6 (result->second->m_DACvalue[1][xtal]);
395  DBtable.setDACG12 (result->second->m_DACvalue[0][xtal]);
396  DBtable.setTaskStatus (1); //FIXME to be set correctly
397 
398  // fill the table
399  if ( DBconnection )
400  {
401  try
402  {
403  int fedid = result->first;
404  int eid = m_pedValues[fedid]->getCrystalNumber(xtal);
405  // If eid is zero, that crystal was not present in digis
406  if(eid==0)
407  continue;
408 
409  if (fedid >= 601 && fedid <= 609)
410  {
411  // Add the FEDid part in for DB
412  eid = eid+10000*(fedid-600);
413  ecid = DBconnection->getEcalLogicID("EE_elec_crystal_number", eid);
414  }
415  else if (fedid >= 610 && fedid <= 627)
416  {
417  ecid = DBconnection->getEcalLogicID("EB_crystal_number", fedid-610+19,
418  eid);
419  }
420  else if (fedid >= 628 && fedid <= 645)
421  {
422  ecid = DBconnection->getEcalLogicID("EB_crystal_number", fedid-628+1,
423  eid);
424  }
425  else if (fedid >= 646 && fedid <= 654)
426  {
427  // Add the FEDid part in for DB
428  eid = eid+10000*(fedid-600);
429  ecid = DBconnection->getEcalLogicID("EE_elec_crystal_number", eid);
430  }
431  else
432  LogError("EcalPedOffset") << "FEDid is out of range 601-654";
433 
434  DBdataset[ecid] = DBtable ;
435  } catch (std::runtime_error &e) {
436  edm::LogError ("EcalPedOffset") << e.what();
437  }
438  }
439  } // loop over the crystals
440  } // loop over the super-modules
441 
442  // insert the map of tables in the database
443  if ( DBconnection ) {
444  try {
445  LogDebug ("EcalPedOffset") << "Inserting dataset ... " << std::flush;
446  if ( DBdataset.size() != 0 ) DBconnection->insertDataSet (&DBdataset, &moniov);
447  LogDebug ("EcalPedOffset") << "done." ;
448  } catch (std::runtime_error &e) {
449  edm::LogError ("EcalPedOffset") << e.what ();
450  }
451  }
452 
453  if ( DBconnection ) {delete DBconnection;}
454 }
455 
456 
457 // -----------------------------------------------------------------------------
458 
459 
462 {
463  // loop over the super-modules
464  for (std::map<int,TPedResult*>::const_iterator smRes = m_pedResult.begin();
465  smRes != m_pedResult.end();
466  ++smRes)
467  {
468  std::string thisSMFileName = fileName;
469  // open the output stream
470  thisSMFileName+="_";
471  thisSMFileName+=intToString(smRes->first);
472  thisSMFileName+=".xml";
473  std::ofstream xml_outfile;
474  xml_outfile.open(thisSMFileName.c_str());
475 
476  // write the header file
477  xml_outfile<<"<offsets>"<<std::endl;
478  xml_outfile << "<PEDESTAL_OFFSET_RELEASE VERSION_ID = \"SM1_VER1\"> \n";
479  xml_outfile << " <RELEASE_ID>RELEASE_1</RELEASE_ID>\n";
480  xml_outfile << " <SUPERMODULE>";
481  xml_outfile << smRes->first;
482  xml_outfile << "</SUPERMODULE>\n";
483  xml_outfile << " <TIME_STAMP> 070705 </TIME_STAMP>" << std::endl;
484 
485  // loop over the crystals
486  for (int xtal = 0 ; xtal < 1700 ; ++xtal)
487  {
488  int crystalNumber = m_pedValues[smRes->first]->getCrystalNumber(xtal);
489  if(crystalNumber==0)
490  continue;
491  xml_outfile << " <PEDESTAL_OFFSET>\n";
492  xml_outfile << " <HIGH>" << ((smRes->second)->m_DACvalue)[0][xtal] << "</HIGH>\n";
493  xml_outfile << " <MED>" << ((smRes->second)->m_DACvalue)[1][xtal] << "</MED>\n";
494  xml_outfile << " <LOW>" << ((smRes->second)->m_DACvalue)[2][xtal] << "</LOW>\n";
495  xml_outfile << " <CRYSTAL> "<< crystalNumber << " </CRYSTAL>\n";
496  xml_outfile << " </PEDESTAL_OFFSET>" << std::endl;
497  }
498 
499  // close the open tags
500  xml_outfile << " </PEDESTAL_OFFSET_RELEASE>" << std::endl;
501  xml_outfile << "</offsets>" << std::endl;
502  xml_outfile.close ();
503  } // loop over the super-modules
504 
505 
506 }
507 
508 
509 // -----------------------------------------------------------------------------
510 
511 
514 {
515  LogDebug ("EcalPedOffset") << " entering makePlots ..." ;
516 
517  edm::LogInfo ("EcalPedOffset") << " map size: "
518  << m_pedValues.size();
519 
520  // create the ROOT file
521  m_plotting+=".root";
522 
523  TFile * rootFile = new TFile(m_plotting.c_str(),"RECREATE");
524 
525  // loop over the supermodules
526  for (std::map<int,TPedValues*>::const_iterator smPeds = m_pedValues.begin();
527  smPeds != m_pedValues.end();
528  ++smPeds)
529  {
530  // make a folder in the ROOT file
531  char folderName[120] ;
532  sprintf (folderName,"FED%02d",smPeds->first);
533  rootFile->mkdir(folderName);
534  smPeds->second->makePlots(rootFile,folderName,m_maxSlopeAllowed_,
536  }
537 
538  rootFile->Close();
539  delete rootFile;
540 
541  LogDebug ("EcalPedOffset") << " DONE";
542 }
543 
544 // -----------------------------------------------------------------------------
545 
546 // convert an int to a string
548 {
549 
550  // outputs the number into the string stream and then flushes
551  // the buffer (makes sure the output is put into the stream)
552  std::ostringstream myStream;
553  myStream << num << std::flush;
554  return(myStream.str()); //returns the string form of the stringstream object
555 }
int adc(sample_type sample)
get the ADC sample (12 bits)
#define LogDebug(id)
void setTaskStatus(bool status)
double m_maxChi2OverNDFAllowed_
max chi2/ndf allowed for linearity test
void setRunTypeDef(const RunTypeDef &runTypeDef)
Definition: RunTag.cc:70
int run_t
Definition: CaliIOV.h:11
edm::InputTag m_barrelDigiCollection
secondary name given to collection of digis
Definition: EcalPedOffset.h:66
std::string m_dbHostName
database host name
Definition: EcalPedOffset.h:81
boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
int gainId(sample_type sample)
get the gainId (2 bits)
Ecal readout channel identification [32:20] Unused (so far) [19:13] DCC id [12:6] tower [5:3] strip [...
Definition: RunTag.h:13
std::map< int, TPedValues * > m_pedValues
Definition: EcalPedOffset.h:72
std::string m_dbName
database name
Definition: EcalPedOffset.h:83
void setRunIOV(const RunIOV &iov)
Definition: MonRunIOV.cc:53
std::string intToString(int num)
std::vector< EcalDCCHeaderBlock >::const_iterator const_iterator
RunIOV fetchRunIOV(RunTag *tag, run_t run)
std::string m_xmlFile
name of the xml file to be saved
Definition: EcalPedOffset.h:70
double m_minSlopeAllowed_
min slope (in magnitude) allowed for linearity test
void setToCurrentGMTime()
Definition: Tm.cc:177
void setGeneralTag(std::string tag)
Definition: MonRunTag.cc:33
std::string m_dbPassword
database user password
Definition: EcalPedOffset.h:87
std::string m_plotting
the root file where to store the detail plots
Definition: EcalPedOffset.h:99
void beginRun(edm::Run const &, edm::EventSetup const &eventSetup)
BeginRun.
int m_dbHostPort
database
Definition: EcalPedOffset.h:89
std::string m_dbUserName
database user name
Definition: EcalPedOffset.h:85
RunTag getRunTag() const
Definition: RunIOV.cc:96
EcalElectronicsId getElectronicsId(const DetId &id) const
Get the electronics id for this det id.
void writeDb()
WriteDB.
void readDACs(const edm::Handle< EBDigiCollection > &pDigis, const std::map< int, int > &DACvalues)
void analyze(edm::Event const &event, edm::EventSetup const &eventSetup)
! Analyze
void endJob(void)
EndJob.
tuple result
Definition: query.py:137
int subrun_t
Definition: MODRunIOV.h:11
EcalLogicID getEcalLogicID(std::string name, int id1=EcalLogicID::NULLID, int id2=EcalLogicID::NULLID, int id3=EcalLogicID::NULLID, std::string mapsTo="")
void makePlots()
create the plots of the DAC pedestal trend
tuple handle
Definition: patZpeak.py:22
virtual ~EcalPedOffset()
Destructor.
void setSubRunNumber(subrun_t subrun)
Definition: MonRunIOV.cc:67
void setMonVersionDef(const MonVersionDef &ver)
Definition: MonRunTag.cc:49
bool m_create_moniov
Definition: EcalPedOffset.h:92
void setSubRunStart(const Tm &start)
Definition: MonRunIOV.cc:84
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
bool isValid() const
Definition: HandleBase.h:76
int dccId() const
get the DCC (Ecal Local DCC value not global one) id
void setLocationDef(const LocationDef &locDef)
Definition: RunTag.cc:53
int ic() const
get ECAL/crystal number inside SM
Definition: EBDetId.cc:46
void writeXMLFiles(std::string fileName)
write the results into xml format
std::map< int, TPedResult * > m_pedResult
Definition: EcalPedOffset.h:73
EcalPedOffset(const edm::ParameterSet &ps)
Constructor.
edm::InputTag m_headerCollection
name of module/plugin/producer making headers
Definition: EcalPedOffset.h:68
int m_run
run number
Definition: EcalPedOffset.h:96
void setRunType(std::string runtype)
Definition: RunTypeDef.cc:33
const T & get() const
Definition: EventSetup.h:55
T const * product() const
Definition: ESHandle.h:62
void setMonRunTag(const MonRunTag &tag)
Definition: MonRunIOV.cc:36
MonRunIOV fetchMonRunIOV(RunTag *runtag, MonRunTag *montag, run_t run, subrun_t monrun)
void setMonitoringVersion(std::string ver)
const EcalElectronicsMapping * ecalElectronicsMap_
Definition: EcalPedOffset.h:60
void setLocation(std::string loc)
Definition: LocationDef.cc:33
std::string m_location
Definition: EcalPedOffset.h:94
void insertDataSet(const std::map< EcalLogicID, DATT > *data, IOVT *iov)
volatile std::atomic< bool > shutdown_flag false
void setGeneralTag(std::string tag)
Definition: RunTag.cc:36
double m_maxSlopeAllowed_
max slope (in magnitude) allowed for linearity test
edm::InputTag m_endcapDigiCollection
secondary name given to collection of digis
Definition: EcalPedOffset.h:67
Definition: RunIOV.h:13
Definition: Tm.h:13
static const int MAXSAMPLES
Definition: EcalDataFrame.h:48
Definition: Run.h:41