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LaserTask.cc
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1 
2 #include "DQM/HcalTasks/interface/LaserTask.h"
3 
4 using namespace hcaldqm;
5 using namespace hcaldqm::constants;
6 using namespace hcaldqm::filter;
7 LaserTask::LaserTask(edm::ParameterSet const& ps):
8  DQTask(ps)
9 {
10  _nevents = ps.getUntrackedParameter<int>("nevents", 2000);
11 
12  // tags
13  _tagHBHE = ps.getUntrackedParameter<edm::InputTag>("tagHBHE",
14  edm::InputTag("hcalDigis"));
15  _tagHEP17 = ps.getUntrackedParameter<edm::InputTag>("tagHEP17",
16  edm::InputTag("hcalDigis"));
17  _tagHO = ps.getUntrackedParameter<edm::InputTag>("tagHO",
18  edm::InputTag("hcalDigis"));
19  _tagHF = ps.getUntrackedParameter<edm::InputTag>("tagHF",
20  edm::InputTag("hcalDigis"));
21  _taguMN = ps.getUntrackedParameter<edm::InputTag>("taguMN",
22  edm::InputTag("hcalDigis"));
23  _tokHBHE = consumes<HBHEDigiCollection>(_tagHBHE);
24  _tokHEP17 = consumes<QIE11DigiCollection>(_tagHEP17);
25  _tokHO = consumes<HODigiCollection>(_tagHO);
26  _tokHF = consumes<QIE10DigiCollection>(_tagHF);
27  _tokuMN = consumes<HcalUMNioDigi>(_taguMN);
28 
29  // constants
30  _lowHBHE = ps.getUntrackedParameter<double>("lowHBHE",
31  20);
32  _lowHEP17 = ps.getUntrackedParameter<double>("lowHEP17",
33  20);
34  _lowHO = ps.getUntrackedParameter<double>("lowHO",
35  20);
36  _lowHF = ps.getUntrackedParameter<double>("lowHF",
37  20);
38  _laserType = (uint32_t)ps.getUntrackedParameter<uint32_t>("laserType");
39 }
40 
41 /* virtual */ void LaserTask::bookHistograms(DQMStore::IBooker &ib,
42  edm::Run const& r, edm::EventSetup const& es)
43 {
44  if (_ptype==fLocal)
45  if (r.runAuxiliary().run()==1)
46  return;
47 
48  DQTask::bookHistograms(ib, r, es);
49 
50  edm::ESHandle<HcalDbService> dbService;
51  es.get<HcalDbRecord>().get(dbService);
52  _emap = dbService->getHcalMapping();
53 
54  std::vector<uint32_t> vhashVME;
55  std::vector<uint32_t> vhashuTCA;
56  std::vector<uint32_t> vhashC36;
57  vhashVME.push_back(HcalElectronicsId(constants::FIBERCH_MIN,
58  constants::FIBER_VME_MIN, SPIGOT_MIN, CRATE_VME_MIN).rawId());
59  vhashuTCA.push_back(HcalElectronicsId(CRATE_uTCA_MIN, SLOT_uTCA_MIN,
60  FIBER_uTCA_MIN1, FIBERCH_MIN, false).rawId());
61  _filter_VME.initialize(filter::fFilter, hcaldqm::hashfunctions::fElectronics,
62  vhashVME);
63  _filter_uTCA.initialize(filter::fFilter, hcaldqm::hashfunctions::fElectronics,
64  vhashuTCA);
65 
66  // INITIALIZE
67  _cSignalMean_Subdet.initialize(_name, "SignalMean",
68  hcaldqm::hashfunctions::fSubdet,
69  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
70  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),0);
71  _cSignalRMS_Subdet.initialize(_name, "SignalRMS",
72  hcaldqm::hashfunctions::fSubdet,
73  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_1000),
74  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),0);
75  _cTimingMean_Subdet.initialize(_name, "TimingMean",
76  hcaldqm::hashfunctions::fSubdet,
77  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
78  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),0);
79  _cTimingRMS_Subdet.initialize(_name, "TimingRMS",
80  hcaldqm::hashfunctions::fSubdet,
81  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
82  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),0);
83 
84  _cADC_SubdetPM.initialize(_name, "ADC",
85  hcaldqm::hashfunctions::fSubdetPM,
86  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fADC_128),
87  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),0);
88 
89  if (_ptype != fOffline) { // hidefed2crate
90  _cSignalMean_FEDVME.initialize(_name, "SignalMean",
91  hcaldqm::hashfunctions::fFED,
92  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSpigot),
93  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberVMEFiberCh),
94  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
95  _cSignalMean_FEDuTCA.initialize(_name, "SignalMean",
96  hcaldqm::hashfunctions::fFED,
97  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
98  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
99  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
100  _cSignalRMS_FEDVME.initialize(_name, "SignalRMS",
101  hcaldqm::hashfunctions::fFED,
102  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSpigot),
103  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberVMEFiberCh),
104  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
105  _cSignalRMS_FEDuTCA.initialize(_name, "SignalRMS",
106  hcaldqm::hashfunctions::fFED,
107  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
108  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
109  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
110  _cTimingMean_FEDVME.initialize(_name, "TimingMean",
111  hcaldqm::hashfunctions::fFED,
112  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSpigot),
113  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberVMEFiberCh),
114  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
115  _cTimingMean_FEDuTCA.initialize(_name, "TimingMean",
116  hcaldqm::hashfunctions::fFED,
117  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
118  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
119  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
120  _cTimingRMS_FEDVME.initialize(_name, "TimingRMS",
121  hcaldqm::hashfunctions::fFED,
122  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSpigot),
123  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberVMEFiberCh),
124  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
125  _cTimingRMS_FEDuTCA.initialize(_name, "TimingRMS",
126  hcaldqm::hashfunctions::fFED,
127  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
128  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
129  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
130 
131  _cShapeCut_FEDSlot.initialize(_name, "Shape",
132  hcaldqm::hashfunctions::fFEDSlot,
133  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS),
134  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
135  }
136  _cTimingvsEvent_SubdetPM.initialize(_name, "TimingvsEvent",
137  hcaldqm::hashfunctions::fSubdetPM,
138  new hcaldqm::quantity::EventNumber(_nevents),
139  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
140  _cSignalvsEvent_SubdetPM.initialize(_name, "SignalvsEvent",
141  hcaldqm::hashfunctions::fSubdetPM,
142  new hcaldqm::quantity::EventNumber(_nevents),
143  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
144  _cTimingvsLS_SubdetPM.initialize(_name, "TimingvsLS",
145  hcaldqm::hashfunctions::fSubdetPM,
146  new hcaldqm::quantity::LumiSection(_maxLS),
147  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
148  _cSignalvsLS_SubdetPM.initialize(_name, "SignalvsLS",
149  hcaldqm::hashfunctions::fSubdetPM,
150  new hcaldqm::quantity::LumiSection(_maxLS),
151  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
152  _cTimingvsBX_SubdetPM.initialize(_name, "TimingvsBX",
153  hcaldqm::hashfunctions::fSubdetPM,
154  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fBX),
155  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
156  _cSignalvsBX_SubdetPM.initialize(_name, "SignalvsBX",
157  hcaldqm::hashfunctions::fSubdetPM,
158  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fBX),
159  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
160 
161  _cSignalMean_depth.initialize(_name, "SignalMean",
162  hcaldqm::hashfunctions::fdepth,
163  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
164  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
165  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),0);
166  _cSignalRMS_depth.initialize(_name, "SignalRMS",
167  hcaldqm::hashfunctions::fdepth,
168  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
169  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
170  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_1000),0);
171  _cTimingMean_depth.initialize(_name, "TimingMean",
172  hcaldqm::hashfunctions::fdepth,
173  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
174  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
175  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
176  _cTimingRMS_depth.initialize(_name, "TimingRMS",
177  hcaldqm::hashfunctions::fdepth,
178  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
179  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
180  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),0);
181 
182  _cMissing_depth.initialize(_name, "Missing",
183  hcaldqm::hashfunctions::fdepth,
184  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
185  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
186  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),0);
187  if (_ptype != fOffline) { // hidefed2crate
188  _cMissing_FEDVME.initialize(_name, "Missing",
189  hcaldqm::hashfunctions::fFED,
190  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSpigot),
191  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberVMEFiberCh),
192  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),0);
193  _cMissing_FEDuTCA.initialize(_name, "Missing",
194  hcaldqm::hashfunctions::fFED,
195  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
196  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
197  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),0);
198  }
199 
200 
201  // initialize compact containers
202  _xSignalSum.initialize(hcaldqm::hashfunctions::fDChannel);
203  _xSignalSum2.initialize(hcaldqm::hashfunctions::fDChannel);
204  _xTimingSum.initialize(hcaldqm::hashfunctions::fDChannel);
205  _xTimingSum2.initialize(hcaldqm::hashfunctions::fDChannel);
206  _xEntries.initialize(hcaldqm::hashfunctions::fDChannel);
207 
208  // BOOK
209  _cSignalMean_Subdet.book(ib, _emap, _subsystem);
210  _cSignalRMS_Subdet.book(ib, _emap, _subsystem);
211  _cTimingMean_Subdet.book(ib, _emap, _subsystem);
212  _cTimingRMS_Subdet.book(ib, _emap, _subsystem);
213 
214  _cSignalMean_depth.book(ib, _emap, _subsystem);
215  _cSignalRMS_depth.book(ib, _emap, _subsystem);
216  _cTimingMean_depth.book(ib, _emap, _subsystem);
217  _cTimingRMS_depth.book(ib, _emap, _subsystem);
218 
219  if (_ptype==fLocal)
220  {
221  _cTimingvsEvent_SubdetPM.book(ib, _emap, _subsystem);
222  _cSignalvsEvent_SubdetPM.book(ib, _emap, _subsystem);
223  }
224  else
225  {
226  _cTimingvsLS_SubdetPM.book(ib, _emap, _subsystem);
227  _cSignalvsLS_SubdetPM.book(ib, _emap, _subsystem);
228  _cTimingvsBX_SubdetPM.book(ib, _emap, _subsystem);
229  _cSignalvsBX_SubdetPM.book(ib, _emap, _subsystem);
230  }
231 
232  if (_ptype != fOffline) { // hidefed2crate
233  _cSignalMean_FEDVME.book(ib, _emap, _filter_uTCA, _subsystem);
234  _cSignalMean_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
235  _cSignalRMS_FEDVME.book(ib, _emap, _filter_uTCA, _subsystem);
236  _cSignalRMS_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
237  _cTimingMean_FEDVME.book(ib, _emap, _filter_uTCA, _subsystem);
238  _cTimingMean_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
239  _cTimingRMS_FEDVME.book(ib, _emap, _filter_uTCA, _subsystem);
240  _cTimingRMS_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
241  }
242  _cADC_SubdetPM.book(ib, _emap, _subsystem);
243 
244  _cMissing_depth.book(ib, _emap,_subsystem);
245  if (_ptype != fOffline) { // hidefed2crate
246  _cShapeCut_FEDSlot.book(ib, _emap, _subsystem);
247  _cMissing_FEDVME.book(ib, _emap, _filter_uTCA,_subsystem);
248  _cMissing_FEDuTCA.book(ib, _emap, _filter_VME,_subsystem);
249  }
250 
251  _xSignalSum.book(_emap);
252  _xSignalSum2.book(_emap);
253  _xEntries.book(_emap);
254  _xTimingSum.book(_emap);
255  _xTimingSum2.book(_emap);
256 
257  _ehashmap.initialize(_emap, electronicsmap::fD2EHashMap);
258 }
259 
260 /* virtual */ void LaserTask::_resetMonitors(hcaldqm::UpdateFreq uf)
261 {
262  DQTask::_resetMonitors(uf);
263 }
264 
265 /* virtual */ void LaserTask::_dump()
266 {
267  _cSignalMean_Subdet.reset();
268  _cSignalRMS_Subdet.reset();
269  _cTimingMean_Subdet.reset();
270  _cTimingRMS_Subdet.reset();
271  _cSignalMean_depth.reset();
272  _cSignalRMS_depth.reset();
273  _cTimingMean_depth.reset();
274  _cTimingRMS_depth.reset();
275 
276  if (_ptype != fOffline) { // hidefed2crate
277  _cSignalMean_FEDVME.reset();
278  _cSignalMean_FEDuTCA.reset();
279  _cSignalRMS_FEDVME.reset();
280  _cSignalRMS_FEDuTCA.reset();
281  _cTimingMean_FEDVME.reset();
282  _cTimingMean_FEDuTCA.reset();
283  _cTimingRMS_FEDVME.reset();
284  _cTimingRMS_FEDuTCA.reset();
285  }
286 
287  std::vector<HcalGenericDetId> dids = _emap->allPrecisionId();
288  for (std::vector<HcalGenericDetId>::const_iterator it=dids.begin();
289  it!=dids.end(); ++it)
290  {
291  if (!it->isHcalDetId())
292  continue;
293  HcalDetId did = HcalDetId(it->rawId());
294  HcalElectronicsId eid(_ehashmap.lookup(*it));
295  int n = _xEntries.get(did);
296  double msig = _xSignalSum.get(did)/n;
297  double mtim = _xTimingSum.get(did)/n;
298  double rsig = sqrt(_xSignalSum2.get(did)/n-msig*msig);
299  double rtim = sqrt(_xTimingSum2.get(did)/n-mtim*mtim);
300 
301  // channels missing or low signal
302  if (n==0)
303  {
304  _cMissing_depth.fill(did);
305  if (_ptype != fOffline) { // hidefed2crate
306  if (eid.isVMEid())
307  _cMissing_FEDVME.fill(eid);
308  else
309  _cMissing_FEDuTCA.fill(eid);
310  }
311  continue;
312  }
313  _cSignalMean_Subdet.fill(did, msig);
314  _cSignalMean_depth.fill(did, msig);
315  _cSignalRMS_Subdet.fill(did, rsig);
316  _cSignalRMS_depth.fill(did, rsig);
317  _cTimingMean_Subdet.fill(did, mtim);
318  _cTimingMean_depth.fill(did, mtim);
319  _cTimingRMS_Subdet.fill(did, rtim);
320  _cTimingRMS_depth.fill(did, rtim);
321  if (_ptype != fOffline) { // hidefed2crate
322  if (eid.isVMEid())
323  {
324  _cSignalMean_FEDVME.fill(eid, msig);
325  _cSignalRMS_FEDVME.fill(eid, rsig);
326  _cTimingMean_FEDVME.fill(eid, mtim);
327  _cTimingRMS_FEDVME.fill(eid, rtim);
328  }
329  else
330  {
331  _cSignalMean_FEDuTCA.fill(eid, msig);
332  _cSignalRMS_FEDuTCA.fill(eid, rsig);
333  _cTimingMean_FEDuTCA.fill(eid, mtim);
334  _cTimingRMS_FEDuTCA.fill(eid, rtim);
335  }
336  }
337  }
338 }
339 
340 /* virtual */ void LaserTask::_process(edm::Event const& e,
341  edm::EventSetup const& es)
342 {
343  edm::Handle<HBHEDigiCollection> chbhe;
344  edm::Handle<QIE11DigiCollection> chep17;
345  edm::Handle<HODigiCollection> cho;
346  edm::Handle<QIE10DigiCollection> chf;
347 
348  if (!e.getByToken(_tokHBHE, chbhe))
349  _logger.dqmthrow("Collection HBHEDigiCollection isn't available "
350  + _tagHBHE.label() + " " + _tagHBHE.instance());
351  if (!e.getByToken(_tokHEP17, chep17))
352  _logger.dqmthrow("Collection QIE11DigiCollection isn't available "
353  + _tagHEP17.label() + " " + _tagHEP17.instance());
354  if (!e.getByToken(_tokHO, cho))
355  _logger.dqmthrow("Collection HODigiCollection isn't available "
356  + _tagHO.label() + " " + _tagHO.instance());
357  if (!e.getByToken(_tokHF, chf))
358  _logger.dqmthrow("Collection QIE10DigiCollection isn't available "
359  + _tagHF.label() + " " + _tagHF.instance());
360 
361 // int currentEvent = e.eventAuxiliary().id().event();
362  int bx = e.bunchCrossing();
363 
364  for (HBHEDigiCollection::const_iterator it=chbhe->begin();
365  it!=chbhe->end(); ++it)
366  {
367  const HBHEDataFrame digi = (const HBHEDataFrame)(*it);
368  double sumQ = hcaldqm::utilities::sumQ<HBHEDataFrame>(digi, 2.5, 0,
369  digi.size()-1);
370  if (sumQ<_lowHBHE)
371  continue;
372  HcalDetId did = digi.id();
373  HcalElectronicsId eid = digi.elecId();
374 
375  double aveTS = hcaldqm::utilities::aveTS<HBHEDataFrame>(digi, 2.5, 0,
376  digi.size()-1);
377  _xSignalSum.get(did)+=sumQ;
378  _xSignalSum2.get(did)+=sumQ*sumQ;
379  _xTimingSum.get(did)+=aveTS;
380  _xTimingSum2.get(did)+=aveTS*aveTS;
381  _xEntries.get(did)++;
382 
383  for (int i=0; i<digi.size(); i++)
384  {
385  if (_ptype != fOffline) { // hidefed2crate
386  _cShapeCut_FEDSlot.fill(eid, i,
387  digi.sample(i).nominal_fC()-2.5);
388  }
389  _cADC_SubdetPM.fill(did, digi.sample(i).adc());
390  }
391 
392  // select based on local global
393  if (_ptype==fLocal)
394  {
395  int currentEvent = e.eventAuxiliary().id().event();
396  _cTimingvsEvent_SubdetPM.fill(did, currentEvent, aveTS);
397  _cSignalvsEvent_SubdetPM.fill(did, currentEvent, sumQ);
398  }
399  else
400  {
401  _cTimingvsLS_SubdetPM.fill(did, _currentLS, aveTS);
402  _cSignalvsLS_SubdetPM.fill(did, _currentLS, sumQ);
403  _cTimingvsBX_SubdetPM.fill(did, bx, aveTS);
404  _cSignalvsBX_SubdetPM.fill(did, bx, sumQ);
405  }
406  }
407  for (QIE11DigiCollection::const_iterator it=chep17->begin(); it!=chep17->end();
408  ++it)
409  {
410  const QIE11DataFrame digi = static_cast<const QIE11DataFrame>(*it);
411  HcalDetId const& did = digi.detid();
412  if (did.subdet() != HcalEndcap) {
413  continue;
414  }
415  uint32_t rawid = _ehashmap.lookup(did);
416  HcalElectronicsId const& eid(rawid);
417 
418  CaloSamples digi_fC = hcaldqm::utilities::loadADC2fCDB<QIE11DataFrame>(_dbService, did, digi);
419  //double sumQ = hcaldqm::utilities::sumQ_v10<QIE11DataFrame>(digi, 2.5, 0, digi.samples()-1);
420  double sumQ = hcaldqm::utilities::sumQDB<QIE11DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples()-1);
421  if (sumQ<_lowHEP17)
422  continue;
423 
424 
425  //double aveTS = hcaldqm::utilities::aveTS_v10<QIE11DataFrame>(digi, 2.5, 0,digi.samples()-1);
426  double aveTS = hcaldqm::utilities::aveTSDB<QIE11DataFrame>(_dbService, digi_fC, did, digi, 0, digi.size()-1);
427  _xSignalSum.get(did)+=sumQ;
428  _xSignalSum2.get(did)+=sumQ*sumQ;
429  _xTimingSum.get(did)+=aveTS;
430  _xTimingSum2.get(did)+=aveTS*aveTS;
431  _xEntries.get(did)++;
432 
433  for (int i=0; i<digi.samples(); i++)
434  {
435  _cShapeCut_FEDSlot.fill(eid, i, hcaldqm::utilities::adc2fCDBMinusPedestal<QIE11DataFrame>(_dbService, digi_fC, did, digi, i));
436  _cADC_SubdetPM.fill(did, digi[i].adc());
437  }
438 
439  // select based on local global
440  if (_ptype==fLocal)
441  {
442  int currentEvent = e.eventAuxiliary().id().event();
443  _cTimingvsEvent_SubdetPM.fill(did, currentEvent, aveTS);
444  _cSignalvsEvent_SubdetPM.fill(did, currentEvent, sumQ);
445  }
446  else
447  {
448  _cTimingvsLS_SubdetPM.fill(did, _currentLS, aveTS);
449  _cSignalvsLS_SubdetPM.fill(did, _currentLS, sumQ);
450  _cTimingvsBX_SubdetPM.fill(did, bx, aveTS);
451  _cSignalvsBX_SubdetPM.fill(did, bx, sumQ);
452  }
453  }
454  for (HODigiCollection::const_iterator it=cho->begin();
455  it!=cho->end(); ++it)
456  {
457  const HODataFrame digi = (const HODataFrame)(*it);
458  double sumQ = hcaldqm::utilities::sumQ<HODataFrame>(digi, 8.5, 0,
459  digi.size()-1);
460  if (sumQ<_lowHO)
461  continue;
462  HcalDetId did = digi.id();
463  HcalElectronicsId eid = digi.elecId();
464 
465  double aveTS = hcaldqm::utilities::aveTS<HODataFrame>(digi, 8.5, 0,
466  digi.size()-1);
467  _xSignalSum.get(did)+=sumQ;
468  _xSignalSum2.get(did)+=sumQ*sumQ;
469  _xTimingSum.get(did)+=aveTS;
470  _xTimingSum2.get(did)+=aveTS*aveTS;
471  _xEntries.get(did)++;
472 
473  for (int i=0; i<digi.size(); i++)
474  {
475  if (_ptype != fOffline) { // hidefed2crate
476  _cShapeCut_FEDSlot.fill(eid, i,
477  digi.sample(i).nominal_fC()-8.5);
478  }
479  _cADC_SubdetPM.fill(did, digi.sample(i).adc());
480  }
481 
482  // select based on local global
483  if (_ptype==fLocal)
484  {
485  int currentEvent = e.eventAuxiliary().id().event();
486  _cTimingvsEvent_SubdetPM.fill(did, currentEvent, aveTS);
487  _cSignalvsEvent_SubdetPM.fill(did, currentEvent, sumQ);
488  }
489  else
490  {
491  _cTimingvsLS_SubdetPM.fill(did, _currentLS, aveTS);
492  _cSignalvsLS_SubdetPM.fill(did, _currentLS, sumQ);
493  _cTimingvsBX_SubdetPM.fill(did, bx, aveTS);
494  _cSignalvsBX_SubdetPM.fill(did, bx, sumQ);
495  }
496  }
497  for (QIE10DigiCollection::const_iterator it=chf->begin();
498  it!=chf->end(); ++it)
499  {
500  const QIE10DataFrame digi = (const QIE10DataFrame)(*it);
501  HcalDetId did = digi.detid();
502  if (did.subdet() != HcalForward) {
503  continue;
504  }
505  HcalElectronicsId eid = HcalElectronicsId(_ehashmap.lookup(did));
506 
507  CaloSamples digi_fC = hcaldqm::utilities::loadADC2fCDB<QIE10DataFrame>(_dbService, did, digi);
508  double sumQ = hcaldqm::utilities::sumQDB<QIE10DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples()-1);
509  //double sumQ = hcaldqm::utilities::sumQ_v10<QIE10DataFrame>(digi, 2.5, 0, digi.samples()-1);
510  if (sumQ<_lowHF)
511  continue;
512 
513  //double aveTS = hcaldqm::utilities::aveTS_v10<QIE10DataFrame>(digi, 2.5, 0, digi.samples()-1);
514  double aveTS = hcaldqm::utilities::aveTSDB<QIE10DataFrame>(_dbService, digi_fC, did, digi, 0, digi.size()-1);
515 
516  _xSignalSum.get(did)+=sumQ;
517  _xSignalSum2.get(did)+=sumQ*sumQ;
518  _xTimingSum.get(did)+=aveTS;
519  _xTimingSum2.get(did)+=aveTS*aveTS;
520  _xEntries.get(did)++;
521 
522  for (int i=0; i<digi.samples(); i++)
523  {
524  if (_ptype != fOffline) { // hidefed2crate
525  _cShapeCut_FEDSlot.fill(eid, (int)i, hcaldqm::utilities::adc2fCDBMinusPedestal<QIE10DataFrame>(_dbService, digi_fC, did, digi, i));
526  }
527  _cADC_SubdetPM.fill(did, digi[i].adc());
528  }
529 
530  // select based on local global
531  if (_ptype==fLocal)
532  {
533  int currentEvent = e.eventAuxiliary().id().event();
534  _cTimingvsEvent_SubdetPM.fill(did, currentEvent, aveTS);
535  _cSignalvsEvent_SubdetPM.fill(did, currentEvent, sumQ);
536  }
537  else
538  {
539  _cTimingvsLS_SubdetPM.fill(did, _currentLS, aveTS);
540  _cSignalvsLS_SubdetPM.fill(did, _currentLS, sumQ);
541  _cTimingvsBX_SubdetPM.fill(did, bx, aveTS);
542  _cSignalvsBX_SubdetPM.fill(did, bx, sumQ);
543  }
544  }
545 }
546 
547 /* virtual */ void LaserTask::endLuminosityBlock(edm::LuminosityBlock const& lb,
548  edm::EventSetup const& es)
549 {
550  if (_ptype==fLocal)
551  return;
552  this->_dump();
553 
554  DQTask::endLuminosityBlock(lb, es);
555 }
556 
557 /* virtual */ bool LaserTask::_isApplicable(edm::Event const& e)
558 {
559  if (_ptype!=fOnline)
560  return true;
561  else
562  {
563  // fOnline mode
564  edm::Handle<HcalUMNioDigi> cumn;
565  if (!e.getByToken(_tokuMN, cumn))
566  return false;
567 
568  // event type check first
569  uint8_t eventType = cumn->eventType();
570  if (eventType!=constants::EVENTTYPE_LASER)
571  return false;
572 
573  // check if this analysis task is of the right laser type
574  uint32_t laserType = cumn->valueUserWord(0);
575  if (laserType==_laserType) return true;
576  }
577 
578  return false;
579 }
580 
581 DEFINE_FWK_MODULE(LaserTask);
ecalMGPA::adc
int adc(sample_type sample)
get the ADC sample (12 bits)
Definition: EcalMGPASample.h:11
QIE10DataFrame::samples
int samples() const
total number of samples in the digi
Definition: QIE10DataFrame.h:66
QIE11DataFrame::detid
DetId detid() const
Get the detector id.
Definition: QIE11DataFrame.h:42
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EventNumber_t event() const
Definition: EventID.h:41
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hcaldqm::ContainerProf1D _cShapeCut_FEDSlot
Definition: LaserTask.h:92
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T getUntrackedParameter(std::string const &, T const &) const
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Definition: Utilities.h:108
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Definition: LaserTask.h:94
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Definition: Container1D.cc:40
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bool _isApplicable(edm::Event const &) override
Definition: LaserTask.cc:557
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EventAuxiliary const & eventAuxiliary() const override
Definition: Event.h:92
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Definition: mps_fire.py:269
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Definition: LaserTask.h:73
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int const CRATE_VME_MIN
Definition: Constants.h:111
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Definition: LaserTask.h:109
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Definition: DataFrameContainer.h:58
HcalDetId::subdet
HcalSubdetector subdet() const
get the subdetector
Definition: HcalDetId.h:49
LaserTask::_xSignalSum2
hcaldqm::ContainerXXX< double > _xSignalSum2
Definition: LaserTask.h:78
edm::Event::getByToken
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:519
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void initialize(HcalElectronicsMap const *, ElectronicsMapType etype=fHcalElectronicsMap)
Definition: ElectronicsMap.cc:8
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Definition: LaserTask.h:79
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Definition: LaserTask.h:58
DEFINE_FWK_MODULE
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
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Definition: LaserTask.h:87
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total number of samples in the digi
Definition: HBHEDataFrame.h:26
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Definition: LaserTask.h:70
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Definition: LaserTask.h:74
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Definition: DQTask.h:17
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Definition: LaserTask.cc:265
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Definition: SortedCollection.h:82
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Definition: LaserTask.h:93
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Definition: LaserTask.h:110
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Definition: EventBase.h:66
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Definition: Constants.h:136
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Definition: ContainerProf1D.cc:47
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Definition: DataFrameContainer.h:159
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Definition: MillePedeFileConverter_cfg.py:37
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Definition: LaserTask.cc:260
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Definition: Constants.h:141
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Definition: LaserTask.h:77
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Definition: LaserTask.h:80
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Definition: LaserTask.h:116
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Definition: LaserTask.h:117
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Definition: LaserTask.h:101
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Definition: Constants.h:151
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Definition: LaserTask.h:54
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Definition: LaserTask.h:89
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Definition: LaserTask.h:112
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Definition: LaserTask.h:106
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Definition: LaserTask.h:55
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Definition: LaserTask.h:86
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Definition: LaserTask.cc:41
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Definition: DQModule.h:59
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Definition: Container1D.cc:82
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Definition: Container1D.cc:65
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Definition: LaserTask.h:113
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Definition: LaserTask.h:111
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Definition: Logger.h:15
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Definition: HcalUMNioDigi.cc:54
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Definition: LaserTask.h:65
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Definition: SSEVec.h:18
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Definition: LaserTask.h:108
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Definition: LaserTask.h:69
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total number of samples in the digi
Definition: HODataFrame.h:27
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virtual example_stream void bookHistograms(DQMStore::IBooker &,@example_stream edm::Run const &,@example_stream edm::EventSetup const &) override
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Definition: HcalUMNioDigi.cc:32
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virtual void initialize(std::string const &folder, hashfunctions::HashType, Quantity *, Quantity *, Quantity *qz=new ValueQuantity(quantity::fN), int debug=0)
Definition: Container2D.cc:32
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Definition: Constants.h:144
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Definition: LaserTask.h:59
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DetId detid() const
Get the detector id.
Definition: QIE10DataFrame.h:56
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Definition: HcalElectronicsMap.cc:139
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Definition: LaserTask.cc:547
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Logger _logger
Definition: DQModule.h:70
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RunAuxiliary const & runAuxiliary() const override
Definition: Run.h:62
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Definition: DQModule.h:57
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Definition: DQTask.h:73
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Definition: LaserTask.h:98
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Definition: ContainerProf2D.cc:27
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Definition: LaserTask.h:72
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Definition: Constants.h:116
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Definition: LaserTask.h:118
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Definition: LaserTask.cc:340
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Definition: SortedCollection.h:310
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Definition: LaserTask.h:84
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Definition: LaserTask.h:57
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Definition: LaserTask.h:96
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Definition: LaserTask.h:95
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Definition: LaserTask.h:52
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Definition: ContainerXXX.h:99
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Definition: LaserTask.h:53
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Definition: LaserTask.h:107
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Definition: Container1D.cc:957
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Definition: Constants.h:325
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Definition: LaserTask.h:103
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Definition: EventSetup.h:59
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Definition: LaserTask.h:64
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Definition: ContainerProf2D.cc:51
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void initialize(std::string const &folder, hashfunctions::HashType, Quantity *, Quantity *, int debug=0) override
Definition: ContainerProf1D.cc:26
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Definition: LaserTask.h:56
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Definition: InputTag.h:36
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Definition: DataFrameContainer.h:163
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Definition: EventAuxiliary.h:59
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Definition: ContainerXXX.h:249
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Definition: DQTask.h:72
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Definition: LaserTask.h:71
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Definition: LaserTask.h:61
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hcaldqm::Container1D _cSignalRMS_Subdet
Definition: LaserTask.h:85
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void fill(HcalDetId const &) override
Definition: Container2D.cc:59
HcalDbService::getHcalMapping
const HcalElectronicsMap * getHcalMapping() const
Definition: HcalDbService.cc:309
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Definition: DQModule.h:64
LaserTask::_xTimingSum2
hcaldqm::ContainerXXX< double > _xTimingSum2
Definition: LaserTask.h:81
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Definition: ContainerXXX.h:91
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Definition: HashFilter.cc:26
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Definition: Container2D.cc:895
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Definition: LaserTask.h:60
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total number of samples in the digi
Definition: QIE11DataFrame.h:52
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Definition: LaserTask.h:102
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Definition: LaserTask.h:66
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Readout chain identification for Hcal.
Definition: HcalElectronicsId.h:32
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Definition: InputTag.h:37
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Definition: LaserTask.h:97
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Definition: RunAuxiliary.h:41
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Definition: LaserTask.cc:7
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int const SLOT_uTCA_MIN
Definition: Constants.h:123
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const_iterator begin() const
Definition: SortedCollection.h:303
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Definition: Run.h:43
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Definition: cuy.py:660
LaserTask::_cTimingRMS_depth
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Definition: LaserTask.h:104
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Definition: Utilities.h:122
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