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LaserTask.cc
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1 #include "DQM/HcalTasks/interface/LaserTask.h"
2 
3 using namespace hcaldqm;
4 using namespace hcaldqm::constants;
5 using namespace hcaldqm::filter;
6 LaserTask::LaserTask(edm::ParameterSet const& ps)
7  : DQTask(ps), hcalDbServiceToken_(esConsumes<HcalDbService, HcalDbRecord, edm::Transition::BeginRun>()) {
8  _nevents = ps.getUntrackedParameter<int>("nevents", 2000);
9 
10  // tags
11  _tagQIE11 = ps.getUntrackedParameter<edm::InputTag>("tagHE", edm::InputTag("hcalDigis"));
12  _tagHO = ps.getUntrackedParameter<edm::InputTag>("tagHO", edm::InputTag("hcalDigis"));
13  _tagQIE10 = ps.getUntrackedParameter<edm::InputTag>("tagHF", edm::InputTag("hcalDigis"));
14  _taguMN = ps.getUntrackedParameter<edm::InputTag>("taguMN", edm::InputTag("hcalDigis"));
15  _tagLaserMon = ps.getUntrackedParameter<edm::InputTag>("tagLaserMon", edm::InputTag("LASERMON"));
16  _tokQIE11 = consumes<QIE11DigiCollection>(_tagQIE11);
17  _tokHO = consumes<HODigiCollection>(_tagHO);
18  _tokQIE10 = consumes<QIE10DigiCollection>(_tagQIE10);
19  _tokuMN = consumes<HcalUMNioDigi>(_taguMN);
20  _tokLaserMon = consumes<QIE10DigiCollection>(_tagLaserMon);
21 
22  _vflags.resize(nLaserFlag);
23  _vflags[fBadTiming] = hcaldqm::flag::Flag("BadTiming");
24  _vflags[fMissingLaserMon] = hcaldqm::flag::Flag("MissingLaserMon");
25 
26  // constants
27  _lowHBHE = ps.getUntrackedParameter<double>("lowHBHE", 50);
28  _lowHO = ps.getUntrackedParameter<double>("lowHO", 100);
29  _lowHF = ps.getUntrackedParameter<double>("lowHF", 50);
30  _laserType = (uint32_t)ps.getUntrackedParameter<uint32_t>("laserType");
31 
32  // Laser mon digi ordering list
33  _vLaserMonIPhi = ps.getUntrackedParameter<std::vector<int>>("vLaserMonIPhi");
34  _laserMonIEta = ps.getUntrackedParameter<int>("laserMonIEta");
35  _laserMonCBox = ps.getUntrackedParameter<int>("laserMonCBox");
36  _laserMonDigiOverlap = ps.getUntrackedParameter<int>("laserMonDigiOverlap");
37  _laserMonTS0 = ps.getUntrackedParameter<int>("laserMonTS0");
38  _laserMonThreshold = ps.getUntrackedParameter<double>("laserMonThreshold", 1.e5);
39  _thresh_frac_timingreflm = ps.getUntrackedParameter<double>("_thresh_frac_timingreflm", 0.01);
40  _thresh_min_lmsumq = ps.getUntrackedParameter<double>("thresh_min_lmsumq", 50000.);
41 
42  std::vector<double> vTimingRangeHB =
43  ps.getUntrackedParameter<std::vector<double>>("thresh_timingreflm_HB", std::vector<double>({-70, -10.}));
44  std::vector<double> vTimingRangeHE =
45  ps.getUntrackedParameter<std::vector<double>>("thresh_timingreflm_HE", std::vector<double>({-60., 0.}));
46  std::vector<double> vTimingRangeHO =
47  ps.getUntrackedParameter<std::vector<double>>("thresh_timingreflm_HO", std::vector<double>({-50., 20.}));
48  std::vector<double> vTimingRangeHF =
49  ps.getUntrackedParameter<std::vector<double>>("thresh_timingreflm_HF", std::vector<double>({-50., 20.}));
50  _thresh_timingreflm[HcalBarrel] = std::make_pair(vTimingRangeHB[0], vTimingRangeHB[1]);
51  _thresh_timingreflm[HcalEndcap] = std::make_pair(vTimingRangeHE[0], vTimingRangeHE[1]);
52  _thresh_timingreflm[HcalOuter] = std::make_pair(vTimingRangeHO[0], vTimingRangeHO[1]);
53  _thresh_timingreflm[HcalForward] = std::make_pair(vTimingRangeHF[0], vTimingRangeHF[1]);
54 }
55 
56 /* virtual */ void LaserTask::bookHistograms(DQMStore::IBooker& ib, edm::Run const& r, edm::EventSetup const& es) {
57  if (_ptype == fLocal)
58  if (r.runAuxiliary().run() == 1)
59  return;
60 
61  DQTask::bookHistograms(ib, r, es);
62 
63  edm::ESHandle<HcalDbService> dbService = es.getHandle(hcalDbServiceToken_);
64  _emap = dbService->getHcalMapping();
65 
66  std::vector<uint32_t> vhashVME;
67  std::vector<uint32_t> vhashuTCA;
68  std::vector<uint32_t> vhashC36;
69  vhashVME.push_back(
70  HcalElectronicsId(constants::FIBERCH_MIN, constants::FIBER_VME_MIN, SPIGOT_MIN, CRATE_VME_MIN).rawId());
71  vhashuTCA.push_back(HcalElectronicsId(CRATE_uTCA_MIN, SLOT_uTCA_MIN, FIBER_uTCA_MIN1, FIBERCH_MIN, false).rawId());
72  _filter_VME.initialize(filter::fFilter, hcaldqm::hashfunctions::fElectronics, vhashVME);
73  _filter_uTCA.initialize(filter::fFilter, hcaldqm::hashfunctions::fElectronics, vhashuTCA);
74 
75  // INITIALIZE
76  _cSignalMean_Subdet.initialize(_name,
77  "SignalMean",
78  hcaldqm::hashfunctions::fSubdet,
79  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fQIE10fC_100000Coarse),
80  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
81  0);
82  _cSignalRMS_Subdet.initialize(_name,
83  "SignalRMS",
84  hcaldqm::hashfunctions::fSubdet,
85  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_1000),
86  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
87  0);
88  _cTimingMean_Subdet.initialize(_name,
89  "TimingMean",
90  hcaldqm::hashfunctions::fSubdet,
91  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
92  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
93  0);
94  _cTimingRMS_Subdet.initialize(_name,
95  "TimingRMS",
96  hcaldqm::hashfunctions::fSubdet,
97  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
98  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
99  0);
100 
101  _cADC_SubdetPM.initialize(_name,
102  "ADC",
103  hcaldqm::hashfunctions::fSubdetPM,
104  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fADC_128),
105  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
106  0);
107 
108  if (_ptype == fLocal) { // hidefed2crate
109  _cSignalMean_FEDuTCA.initialize(_name,
110  "SignalMean",
111  hcaldqm::hashfunctions::fFED,
112  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
113  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
114  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fQIE10fC_100000Coarse),
115  0);
116  _cSignalRMS_FEDuTCA.initialize(_name,
117  "SignalRMS",
118  hcaldqm::hashfunctions::fFED,
119  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
120  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
121  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
122  0);
123  _cTimingMean_FEDuTCA.initialize(_name,
124  "TimingMean",
125  hcaldqm::hashfunctions::fFED,
126  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
127  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
128  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
129  0);
130  _cTimingRMS_FEDuTCA.initialize(_name,
131  "TimingRMS",
132  hcaldqm::hashfunctions::fFED,
133  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
134  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
135  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
136  0);
137  _cMissing_FEDuTCA.initialize(_name,
138  "Missing",
139  hcaldqm::hashfunctions::fFED,
140  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
141  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
142  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
143  0);
144 
145  _cShapeCut_FEDSlot.initialize(_name,
146  "Shape",
147  hcaldqm::hashfunctions::fFEDSlot,
148  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS),
149  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
150  0);
151  }
152  _cTimingvsEvent_SubdetPM.initialize(_name,
153  "TimingvsEvent",
154  hcaldqm::hashfunctions::fSubdetPM,
155  new hcaldqm::quantity::EventNumber(_nevents),
156  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
157  0);
158  _cSignalvsEvent_SubdetPM.initialize(_name,
159  "SignalvsEvent",
160  hcaldqm::hashfunctions::fSubdetPM,
161  new hcaldqm::quantity::EventNumber(_nevents),
162  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
163  0);
164  _cTimingvsLS_SubdetPM.initialize(_name,
165  "TimingvsLS",
166  hcaldqm::hashfunctions::fSubdetPM,
167  new hcaldqm::quantity::LumiSection(_maxLS),
168  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
169  0);
170  _cSignalvsLS_SubdetPM.initialize(_name,
171  "SignalvsLS",
172  hcaldqm::hashfunctions::fSubdetPM,
173  new hcaldqm::quantity::LumiSection(_maxLS),
174  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
175  0);
176  _cTimingvsBX_SubdetPM.initialize(_name,
177  "TimingvsBX",
178  hcaldqm::hashfunctions::fSubdetPM,
179  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fBX),
180  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
181  0);
182  _cSignalvsBX_SubdetPM.initialize(_name,
183  "SignalvsBX",
184  hcaldqm::hashfunctions::fSubdetPM,
185  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fBX),
186  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
187  0);
188 
189  _cSignalMean_depth.initialize(_name,
190  "SignalMean",
191  hcaldqm::hashfunctions::fdepth,
192  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
193  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
194  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fQIE10fC_100000Coarse),
195  0);
196  _cSignalRMS_depth.initialize(_name,
197  "SignalRMS",
198  hcaldqm::hashfunctions::fdepth,
199  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
200  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
201  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_1000),
202  0);
203  _cTimingMean_depth.initialize(_name,
204  "TimingMean",
205  hcaldqm::hashfunctions::fdepth,
206  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
207  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
208  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
209  0);
210  _cTimingRMS_depth.initialize(_name,
211  "TimingRMS",
212  hcaldqm::hashfunctions::fdepth,
213  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
214  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
215  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
216  0);
217 
218  _cMissing_depth.initialize(_name,
219  "Missing",
220  hcaldqm::hashfunctions::fdepth,
221  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
222  new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
223  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
224  0);
225 
226  // initialize compact containers
227  _xSignalSum.initialize(hcaldqm::hashfunctions::fDChannel);
228  _xSignalSum2.initialize(hcaldqm::hashfunctions::fDChannel);
229  _xTimingSum.initialize(hcaldqm::hashfunctions::fDChannel);
230  _xTimingSum2.initialize(hcaldqm::hashfunctions::fDChannel);
231  _xEntries.initialize(hcaldqm::hashfunctions::fDChannel);
232 
233  // LaserMon containers
234  if (_ptype == fOnline || _ptype == fLocal) {
235  _cLaserMonSumQ.initialize(_name,
236  "LaserMonSumQ",
237  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_1000000),
238  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
239  0);
240  _cLaserMonSumQ.showOverflowX(true);
241 
242  _cLaserMonTiming.initialize(_name,
243  "LaserMonTiming",
244  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTime_ns_250),
245  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
246  0);
247  _cLaserMonTiming.showOverflowX(true);
248 
249  if (_ptype == fOnline) {
250  _cLaserMonSumQ_LS.initialize(_name,
251  "LaserMonSumQ_LS",
252  new hcaldqm::quantity::LumiSectionCoarse(_maxLS, 10),
253  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_1000000));
254  _cLaserMonTiming_LS.initialize(_name,
255  "LaserMonTiming_LS",
256  new hcaldqm::quantity::LumiSectionCoarse(_maxLS, 10),
257  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_100TS));
258  _cTimingDiffLS_SubdetPM.initialize(_name,
259  "TimingDiff_DigiMinusLaserMon",
260  hcaldqm::hashfunctions::fSubdetPM,
261  new hcaldqm::quantity::LumiSectionCoarse(_maxLS, 10),
262  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fRBX),
263  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTimingDiff_ns),
264  0);
265  _cTimingDiffLS_SubdetPM.showOverflowY(true);
266  } else if (_ptype == fLocal) {
267  _cLaserMonSumQ_Event.initialize(_name,
268  "LaserMonSumQ_Event",
269  new hcaldqm::quantity::EventNumber(_nevents),
270  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_1000000));
271  _cLaserMonTiming_Event.initialize(_name,
272  "LaserMonTiming_Event",
273  new hcaldqm::quantity::EventNumber(_nevents),
274  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_100TS));
275  _cTimingDiffEvent_SubdetPM.initialize(_name,
276  "TimingDiff_DigiMinusLaserMon",
277  hcaldqm::hashfunctions::fSubdetPM,
278  new hcaldqm::quantity::EventNumber(_nevents),
279  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fRBX),
280  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTimingDiff_ns),
281  0);
282  _cTimingDiffEvent_SubdetPM.showOverflowY(true);
283  }
284  _cTiming_DigivsLaserMon_SubdetPM.initialize(
285  _name,
286  "Timing_DigivsLaserMon",
287  hcaldqm::hashfunctions::fSubdetPM,
288  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTime_ns_250_coarse),
289  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTime_ns_250_coarse),
290  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
291  0);
292  _cTiming_DigivsLaserMon_SubdetPM.showOverflowX(true);
293  _cTiming_DigivsLaserMon_SubdetPM.showOverflowY(true);
294 
295  _xTimingRefLMSum.initialize(hcaldqm::hashfunctions::fDChannel);
296  _xTimingRefLMSum2.initialize(hcaldqm::hashfunctions::fDChannel);
297  _xNBadTimingRefLM.initialize(hcaldqm::hashfunctions::fFED);
298  _xNChs.initialize(hcaldqm::hashfunctions::fFED);
299  _xMissingLaserMon = 0;
300 
301  std::vector<int> vFEDs = hcaldqm::utilities::getFEDList(_emap);
302  std::vector<int> vFEDsVME = hcaldqm::utilities::getFEDVMEList(_emap);
303  std::vector<int> vFEDsuTCA = hcaldqm::utilities::getFEDuTCAList(_emap);
304  for (std::vector<int>::const_iterator it = vFEDsVME.begin(); it != vFEDsVME.end(); ++it)
305  _vhashFEDs.push_back(
306  HcalElectronicsId(constants::FIBERCH_MIN, FIBER_VME_MIN, SPIGOT_MIN, (*it) - FED_VME_MIN).rawId());
307  for (std::vector<int>::const_iterator it = vFEDsuTCA.begin(); it != vFEDsuTCA.end(); ++it) {
308  std::pair<uint16_t, uint16_t> cspair = utilities::fed2crate(*it);
309  _vhashFEDs.push_back(HcalElectronicsId(cspair.first, cspair.second, FIBER_uTCA_MIN1, FIBERCH_MIN, false).rawId());
310  }
311 
312  _cSummaryvsLS_FED.initialize(_name,
313  "SummaryvsLS",
314  hcaldqm::hashfunctions::fFED,
315  new hcaldqm::quantity::LumiSection(_maxLS),
316  new hcaldqm::quantity::FlagQuantity(_vflags),
317  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fState),
318  0);
319  _cSummaryvsLS.initialize(_name,
320  "SummaryvsLS",
321  new hcaldqm::quantity::LumiSection(_maxLS),
322  new hcaldqm::quantity::FEDQuantity(vFEDs),
323  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fState),
324  0);
325  } // End if (_ptype == fOnline || _ptype == fLocal) {
326 
327  // BOOK
328  _cSignalMean_Subdet.book(ib, _emap, _subsystem);
329  _cSignalRMS_Subdet.book(ib, _emap, _subsystem);
330  _cTimingMean_Subdet.book(ib, _emap, _subsystem);
331  _cTimingRMS_Subdet.book(ib, _emap, _subsystem);
332 
333  _cSignalMean_depth.book(ib, _emap, _subsystem);
334  _cSignalRMS_depth.book(ib, _emap, _subsystem);
335  _cTimingMean_depth.book(ib, _emap, _subsystem);
336  _cTimingRMS_depth.book(ib, _emap, _subsystem);
337 
338  if (_ptype == fLocal) {
339  _cTimingvsEvent_SubdetPM.book(ib, _emap, _subsystem);
340  _cSignalvsEvent_SubdetPM.book(ib, _emap, _subsystem);
341  } else {
342  _cTimingvsLS_SubdetPM.book(ib, _emap, _subsystem);
343  _cSignalvsLS_SubdetPM.book(ib, _emap, _subsystem);
344  _cTimingvsBX_SubdetPM.book(ib, _emap, _subsystem);
345  _cSignalvsBX_SubdetPM.book(ib, _emap, _subsystem);
346  }
347 
348  if (_ptype == fLocal) { // hidefed2crate
349  _cSignalMean_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
350  _cSignalRMS_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
351  _cTimingMean_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
352  _cTimingRMS_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
353  _cMissing_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
354  _cShapeCut_FEDSlot.book(ib, _emap, _subsystem);
355  }
356  _cADC_SubdetPM.book(ib, _emap, _subsystem);
357 
358  _cMissing_depth.book(ib, _emap, _subsystem);
359 
360  _xSignalSum.book(_emap);
361  _xSignalSum2.book(_emap);
362  _xEntries.book(_emap);
363  _xTimingSum.book(_emap);
364  _xTimingSum2.book(_emap);
365 
366  if (_ptype == fOnline || _ptype == fLocal) {
367  _cLaserMonSumQ.book(ib, _subsystem);
368  _cLaserMonTiming.book(ib, _subsystem);
369  if (_ptype == fOnline) {
370  _cLaserMonSumQ_LS.book(ib, _subsystem);
371  _cLaserMonTiming_LS.book(ib, _subsystem);
372  _cTimingDiffLS_SubdetPM.book(ib, _emap, _subsystem);
373  } else if (_ptype == fLocal) {
374  _cLaserMonSumQ_Event.book(ib, _subsystem);
375  _cLaserMonTiming_Event.book(ib, _subsystem);
376  _cTimingDiffEvent_SubdetPM.book(ib, _emap, _subsystem);
377  }
378  _cTiming_DigivsLaserMon_SubdetPM.book(ib, _emap, _subsystem);
379  _xTimingRefLMSum.book(_emap);
380  _xTimingRefLMSum2.book(_emap);
381  _xNBadTimingRefLM.book(_emap);
382  _xNChs.book(_emap);
383  _cSummaryvsLS_FED.book(ib, _emap, _subsystem);
384  _cSummaryvsLS.book(ib, _subsystem);
385  }
386 
387  _ehashmap.initialize(_emap, electronicsmap::fD2EHashMap);
388 }
389 
390 /* virtual */ void LaserTask::_resetMonitors(hcaldqm::UpdateFreq uf) { DQTask::_resetMonitors(uf); }
391 
392 /* virtual */ void LaserTask::_dump() {
393  _cSignalMean_Subdet.reset();
394  _cSignalRMS_Subdet.reset();
395  _cTimingMean_Subdet.reset();
396  _cTimingRMS_Subdet.reset();
397  _cSignalMean_depth.reset();
398  _cSignalRMS_depth.reset();
399  _cTimingMean_depth.reset();
400  _cTimingRMS_depth.reset();
401 
402  if (_ptype == fLocal) { // hidefed2crate
403  _cSignalMean_FEDuTCA.reset();
404  _cSignalRMS_FEDuTCA.reset();
405  _cTimingMean_FEDuTCA.reset();
406  _cTimingRMS_FEDuTCA.reset();
407  }
408  if (_ptype != fOffline) {
409  _xNChs.reset();
410  }
411 
412  std::vector<HcalGenericDetId> dids = _emap->allPrecisionId();
413  for (std::vector<HcalGenericDetId>::const_iterator it = dids.begin(); it != dids.end(); ++it) {
414  if (!it->isHcalDetId())
415  continue;
416  HcalDetId did = HcalDetId(it->rawId());
417  HcalElectronicsId eid(_ehashmap.lookup(*it));
418  int n = _xEntries.get(did);
419  // channels missing or low signal
420  if (n == 0) {
421  _cMissing_depth.fill(did);
422  if (_ptype == fLocal) { // hidefed2crate
423  if (!eid.isVMEid())
424  _cMissing_FEDuTCA.fill(eid);
425  }
426  continue;
427  }
428 
429  _xNChs.get(eid)++;
430 
431  double msig = _xSignalSum.get(did) / n;
432  double mtim = _xTimingSum.get(did) / n;
433  double rsig = sqrt(_xSignalSum2.get(did) / n - msig * msig);
434  double rtim = sqrt(_xTimingSum2.get(did) / n - mtim * mtim);
435 
436  _cSignalMean_Subdet.fill(did, msig);
437  _cSignalMean_depth.fill(did, msig);
438  _cSignalRMS_Subdet.fill(did, rsig);
439  _cSignalRMS_depth.fill(did, rsig);
440  _cTimingMean_Subdet.fill(did, mtim);
441  _cTimingMean_depth.fill(did, mtim);
442  _cTimingRMS_Subdet.fill(did, rtim);
443  _cTimingRMS_depth.fill(did, rtim);
444  if (_ptype == fLocal) { // hidefed2crate
445  if (!eid.isVMEid()) {
446  _cSignalMean_FEDuTCA.fill(eid, msig);
447  _cSignalRMS_FEDuTCA.fill(eid, rsig);
448  _cTimingMean_FEDuTCA.fill(eid, mtim);
449  _cTimingRMS_FEDuTCA.fill(eid, rtim);
450  }
451  }
452 
453  // Bad timing
454 
455  double timingreflm_mean = _xTimingRefLMSum.get(did) / n;
456  //double timingreflm_rms = sqrt(_xTimingRefLMSum2.get(did) / n - timingreflm_mean * timingreflm_mean);
457 
458  if ((timingreflm_mean < _thresh_timingreflm[did.subdet()].first) ||
459  (timingreflm_mean > _thresh_timingreflm[did.subdet()].second)) {
460  _xNBadTimingRefLM.get(eid)++;
461  }
462  }
463  if (_ptype != fOffline) { // hidefed2crate
464  for (std::vector<uint32_t>::const_iterator it = _vhashFEDs.begin(); it != _vhashFEDs.end(); ++it) {
465  hcaldqm::flag::Flag fSum("LASER");
466  HcalElectronicsId eid = HcalElectronicsId(*it);
467  std::vector<uint32_t>::const_iterator jt = std::find(_vcdaqEids.begin(), _vcdaqEids.end(), (*it));
468  if (jt == _vcdaqEids.end()) {
469  // not @cDAQ
470  for (uint32_t iflag = 0; iflag < _vflags.size(); iflag++)
471  _cSummaryvsLS_FED.setBinContent(eid, _currentLS, int(iflag), int(hcaldqm::flag::fNCDAQ));
472  _cSummaryvsLS.setBinContent(eid, _currentLS, int(hcaldqm::flag::fNCDAQ));
473  continue;
474  }
475  // @cDAQ
476  if (hcaldqm::utilities::isFEDHBHE(eid) || hcaldqm::utilities::isFEDHO(eid) || hcaldqm::utilities::isFEDHF(eid)) {
477  int min_nchs = 10;
478  if (_xNChs.get(eid) < min_nchs) {
479  _vflags[fBadTiming]._state = hcaldqm::flag::fNA;
480  } else {
481  double frbadtimingreflm = double(_xNBadTimingRefLM.get(eid)) / double(_xNChs.get(eid));
482  if (frbadtimingreflm > _thresh_frac_timingreflm) {
483  _vflags[fBadTiming]._state = hcaldqm::flag::fBAD;
484  } else {
485  _vflags[fBadTiming]._state = hcaldqm::flag::fGOOD;
486  }
487  }
488  if (_xMissingLaserMon) {
489  _vflags[fMissingLaserMon]._state = hcaldqm::flag::fBAD;
490  } else {
491  _vflags[fMissingLaserMon]._state = hcaldqm::flag::fGOOD;
492  }
493  }
494 
495  // Set SummaryVsLS bins
496  int iflag = 0;
497  for (std::vector<hcaldqm::flag::Flag>::iterator ft = _vflags.begin(); ft != _vflags.end(); ++ft) {
498  _cSummaryvsLS_FED.setBinContent(eid, _currentLS, iflag, int(ft->_state));
499  fSum += (*ft);
500  iflag++;
501  ft->reset();
502  }
503  _cSummaryvsLS.setBinContent(eid, _currentLS, fSum._state);
504  } // End loop over FEDs
505 
506  // Reset per-LS containers
507  _xNBadTimingRefLM.reset();
508  _xMissingLaserMon = 0;
509  } // End if _ptype != fOffline
510 }
511 
512 /* virtual */ void LaserTask::_process(edm::Event const& e, edm::EventSetup const& es) {
513  edm::Handle<QIE11DigiCollection> c_QIE11;
514  edm::Handle<HODigiCollection> c_ho;
515  edm::Handle<QIE10DigiCollection> c_QIE10;
516 
517  if (!e.getByToken(_tokQIE11, c_QIE11))
518  _logger.dqmthrow("Collection QIE11DigiCollection isn't available " + _tagQIE11.label() + " " +
519  _tagQIE11.instance());
520  if (!e.getByToken(_tokHO, c_ho))
521  _logger.dqmthrow("Collection HODigiCollection isn't available " + _tagHO.label() + " " + _tagHO.instance());
522  if (!e.getByToken(_tokQIE10, c_QIE10))
523  _logger.dqmthrow("Collection QIE10DigiCollection isn't available " + _tagQIE10.label() + " " +
524  _tagQIE10.instance());
525 
526  // int currentEvent = e.eventAuxiliary().id().event();
527  int bx = e.bunchCrossing();
528 
529  // LASERMON
530  edm::Handle<QIE10DigiCollection> cLaserMon;
531  if (!e.getByToken(_tokLaserMon, cLaserMon)) {
532  _logger.dqmthrow("QIE10DigiCollection for laserMonDigis isn't available.");
533  }
534  std::vector<int> laserMonADC;
535  processLaserMon(cLaserMon, laserMonADC);
536 
537  // SumQ = peak +/- 3 TSes
538  // Timing = fC-weighted average (TS-TS0) * 25 ns, also in peak +/- 3 TSes
539  int peakTS = -1;
540  double peakLaserMonADC = -1;
541  for (unsigned int iTS = 0; iTS < laserMonADC.size(); ++iTS) {
542  if (laserMonADC[iTS] > peakLaserMonADC) {
543  peakLaserMonADC = laserMonADC[iTS];
544  peakTS = iTS;
545  }
546  }
547 
548  double laserMonSumQ = 0;
549  double laserMonTiming = 0.;
550 
551  if (peakTS >= 0) {
552  int minTS = std::max(0, peakTS - 3);
553  int maxTS = std::min(int(laserMonADC.size() - 1), peakTS + 3);
554  for (int iTS = minTS; iTS <= maxTS; ++iTS) {
555  double this_fC = hcaldqm::constants::adc2fC[laserMonADC[iTS]];
556  laserMonSumQ += this_fC;
557  laserMonTiming += 25. * (iTS - _laserMonTS0) * this_fC;
558  }
559  }
560  if (laserMonSumQ > 0.) {
561  laserMonTiming = laserMonTiming / laserMonSumQ;
562  } else {
563  ++_xMissingLaserMon;
564  }
565 
566  if (laserMonSumQ > _laserMonThreshold) {
567  _cLaserMonSumQ.fill(laserMonSumQ);
568  _cLaserMonTiming.fill(laserMonTiming);
569  if (_ptype == fOnline) {
570  _cLaserMonSumQ_LS.fill(_currentLS, laserMonSumQ);
571  _cLaserMonTiming_LS.fill(_currentLS, laserMonTiming);
572  } else if (_ptype == fLocal) {
573  int currentEvent = e.eventAuxiliary().id().event();
574  _cLaserMonSumQ_Event.fill(currentEvent, laserMonSumQ);
575  _cLaserMonTiming_Event.fill(currentEvent, laserMonTiming);
576  }
577  }
578 
579  for (QIE11DigiCollection::const_iterator it = c_QIE11->begin(); it != c_QIE11->end(); ++it) {
580  const QIE11DataFrame digi = static_cast<const QIE11DataFrame>(*it);
581  HcalDetId const& did = digi.detid();
582  if ((did.subdet() != HcalBarrel) && (did.subdet() != HcalEndcap)) {
583  continue;
584  }
585  uint32_t rawid = _ehashmap.lookup(did);
586  HcalElectronicsId const& eid(rawid);
587 
588  CaloSamples digi_fC = hcaldqm::utilities::loadADC2fCDB<QIE11DataFrame>(_dbService, did, digi);
589  //double sumQ = hcaldqm::utilities::sumQ_v10<QIE11DataFrame>(digi, 2.5, 0, digi.samples()-1);
590  double sumQ = hcaldqm::utilities::sumQDB<QIE11DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples() - 1);
591  if (sumQ < _lowHBHE)
592  continue;
593 
594  //double aveTS = hcaldqm::utilities::aveTS_v10<QIE11DataFrame>(digi, 2.5, 0,digi.samples()-1);
595  double aveTS = hcaldqm::utilities::aveTSDB<QIE11DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples() - 1);
596  _xSignalSum.get(did) += sumQ;
597  _xSignalSum2.get(did) += sumQ * sumQ;
598  _xTimingSum.get(did) += aveTS;
599  _xTimingSum2.get(did) += aveTS * aveTS;
600  _xEntries.get(did)++;
601 
602  for (int i = 0; i < digi.samples(); i++) {
603  if (_ptype == fLocal) {
604  _cShapeCut_FEDSlot.fill(
605  eid, i, hcaldqm::utilities::adc2fCDBMinusPedestal<QIE11DataFrame>(_dbService, digi_fC, did, digi, i));
606  }
607  _cADC_SubdetPM.fill(did, digi[i].adc());
608  }
609 
610  // select based on local global
611  double digiTimingSOI = (aveTS - digi.presamples()) * 25.;
612  double deltaTiming = digiTimingSOI - laserMonTiming;
613  _cTiming_DigivsLaserMon_SubdetPM.fill(did, laserMonTiming, digiTimingSOI);
614  _xTimingRefLMSum.get(did) += deltaTiming;
615  _xTimingRefLMSum2.get(did) += deltaTiming * deltaTiming;
616  if (_ptype == fLocal) {
617  int currentEvent = e.eventAuxiliary().id().event();
618  _cTimingvsEvent_SubdetPM.fill(did, currentEvent, aveTS);
619  _cSignalvsEvent_SubdetPM.fill(did, currentEvent, sumQ);
620  _cTimingDiffEvent_SubdetPM.fill(did, currentEvent, hcaldqm::utilities::getRBX(did.iphi()), deltaTiming);
621  } else {
622  _cTimingvsLS_SubdetPM.fill(did, _currentLS, aveTS);
623  _cSignalvsLS_SubdetPM.fill(did, _currentLS, sumQ);
624  _cTimingvsBX_SubdetPM.fill(did, bx, aveTS);
625  _cSignalvsBX_SubdetPM.fill(did, bx, sumQ);
626  _cTimingDiffLS_SubdetPM.fill(did, _currentLS, hcaldqm::utilities::getRBX(did.iphi()), deltaTiming);
627  }
628  }
629  for (HODigiCollection::const_iterator it = c_ho->begin(); it != c_ho->end(); ++it) {
630  const HODataFrame digi = (const HODataFrame)(*it);
631  double sumQ = hcaldqm::utilities::sumQ<HODataFrame>(digi, 8.5, 0, digi.size() - 1);
632  if (sumQ < _lowHO)
633  continue;
634  HcalDetId did = digi.id();
635  HcalElectronicsId eid = digi.elecId();
636 
637  double aveTS = hcaldqm::utilities::aveTS<HODataFrame>(digi, 8.5, 0, digi.size() - 1);
638  _xSignalSum.get(did) += sumQ;
639  _xSignalSum2.get(did) += sumQ * sumQ;
640  _xTimingSum.get(did) += aveTS;
641  _xTimingSum2.get(did) += aveTS * aveTS;
642  _xEntries.get(did)++;
643 
644  for (int i = 0; i < digi.size(); i++) {
645  if (_ptype == fLocal) { // hidefed2crate
646  _cShapeCut_FEDSlot.fill(eid, i, digi.sample(i).nominal_fC() - 8.5);
647  }
648  _cADC_SubdetPM.fill(did, digi.sample(i).adc());
649  }
650 
651  // select based on local global
652  double digiTimingSOI = (aveTS - digi.presamples()) * 25.;
653  double deltaTiming = digiTimingSOI - laserMonTiming;
654  _cTiming_DigivsLaserMon_SubdetPM.fill(did, laserMonTiming, digiTimingSOI);
655  _xTimingRefLMSum.get(did) += deltaTiming;
656  _xTimingRefLMSum2.get(did) += deltaTiming * deltaTiming;
657  if (_ptype == fLocal) {
658  int currentEvent = e.eventAuxiliary().id().event();
659  _cTimingvsEvent_SubdetPM.fill(did, currentEvent, aveTS);
660  _cSignalvsEvent_SubdetPM.fill(did, currentEvent, sumQ);
661  _cTimingDiffEvent_SubdetPM.fill(did, currentEvent, hcaldqm::utilities::getRBX(did.iphi()), deltaTiming);
662  } else {
663  _cTimingvsLS_SubdetPM.fill(did, _currentLS, aveTS);
664  _cSignalvsLS_SubdetPM.fill(did, _currentLS, sumQ);
665  _cTimingvsBX_SubdetPM.fill(did, bx, aveTS);
666  _cSignalvsBX_SubdetPM.fill(did, bx, sumQ);
667  _cTimingDiffLS_SubdetPM.fill(did, _currentLS, hcaldqm::utilities::getRBX(did.iphi()), deltaTiming);
668  }
669  }
670  for (QIE10DigiCollection::const_iterator it = c_QIE10->begin(); it != c_QIE10->end(); ++it) {
671  const QIE10DataFrame digi = (const QIE10DataFrame)(*it);
672  HcalDetId did = digi.detid();
673  if (did.subdet() != HcalForward) {
674  continue;
675  }
676  HcalElectronicsId eid = HcalElectronicsId(_ehashmap.lookup(did));
677 
678  CaloSamples digi_fC = hcaldqm::utilities::loadADC2fCDB<QIE10DataFrame>(_dbService, did, digi);
679  double sumQ = hcaldqm::utilities::sumQDB<QIE10DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples() - 1);
680  //double sumQ = hcaldqm::utilities::sumQ_v10<QIE10DataFrame>(digi, 2.5, 0, digi.samples()-1);
681  if (sumQ < _lowHF)
682  continue;
683 
684  //double aveTS = hcaldqm::utilities::aveTS_v10<QIE10DataFrame>(digi, 2.5, 0, digi.samples()-1);
685  double aveTS = hcaldqm::utilities::aveTSDB<QIE10DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples() - 1);
686 
687  _xSignalSum.get(did) += sumQ;
688  _xSignalSum2.get(did) += sumQ * sumQ;
689  _xTimingSum.get(did) += aveTS;
690  _xTimingSum2.get(did) += aveTS * aveTS;
691  _xEntries.get(did)++;
692 
693  for (int i = 0; i < digi.samples(); i++) {
694  if (_ptype == fLocal) { // hidefed2crate
695  _cShapeCut_FEDSlot.fill(
696  eid, (int)i, hcaldqm::utilities::adc2fCDBMinusPedestal<QIE10DataFrame>(_dbService, digi_fC, did, digi, i));
697  }
698  _cADC_SubdetPM.fill(did, digi[i].adc());
699  }
700 
701  // select based on local global
702  double digiTimingSOI = (aveTS - digi.presamples()) * 25.;
703  double deltaTiming = digiTimingSOI - laserMonTiming;
704  _cTiming_DigivsLaserMon_SubdetPM.fill(did, laserMonTiming, digiTimingSOI);
705  _xTimingRefLMSum.get(did) += deltaTiming;
706  _xTimingRefLMSum2.get(did) += deltaTiming * deltaTiming;
707  if (_ptype == fLocal) {
708  int currentEvent = e.eventAuxiliary().id().event();
709  _cTimingvsEvent_SubdetPM.fill(did, currentEvent, aveTS);
710  _cSignalvsEvent_SubdetPM.fill(did, currentEvent, sumQ);
711  _cTimingDiffEvent_SubdetPM.fill(did, currentEvent, hcaldqm::utilities::getRBX(did.iphi()), deltaTiming);
712  } else {
713  _cTimingvsLS_SubdetPM.fill(did, _currentLS, aveTS);
714  _cSignalvsLS_SubdetPM.fill(did, _currentLS, sumQ);
715  _cTimingvsBX_SubdetPM.fill(did, bx, aveTS);
716  _cSignalvsBX_SubdetPM.fill(did, bx, sumQ);
717  _cTimingDiffLS_SubdetPM.fill(did, _currentLS, hcaldqm::utilities::getRBX(did.iphi()), deltaTiming);
718  }
719  }
720 }
721 
722 void LaserTask::processLaserMon(edm::Handle<QIE10DigiCollection>& col, std::vector<int>& iLaserMonADC) {
723  for (QIE10DigiCollection::const_iterator it = col->begin(); it != col->end(); ++it) {
724  const QIE10DataFrame digi = (const QIE10DataFrame)(*it);
725  HcalCalibDetId hcdid(digi.id());
726 
727  if ((hcdid.ieta() != _laserMonIEta) || (hcdid.cboxChannel() != _laserMonCBox)) {
728  continue;
729  }
730 
731  unsigned int digiIndex =
732  std::find(_vLaserMonIPhi.begin(), _vLaserMonIPhi.end(), hcdid.iphi()) - _vLaserMonIPhi.begin();
733  if (digiIndex == _vLaserMonIPhi.size()) {
734  continue;
735  }
736 
737  // First digi: initialize the vectors to -1 (need to know the length of the digi)
738  if (iLaserMonADC.empty()) {
739  int totalNSamples = (digi.samples() - _laserMonDigiOverlap) * _vLaserMonIPhi.size();
740  for (int i = 0; i < totalNSamples; ++i) {
741  iLaserMonADC.push_back(-1);
742  }
743  }
744 
745  for (int subindex = 0; subindex < digi.samples() - _laserMonDigiOverlap; ++subindex) {
746  int totalIndex = (digi.samples() - _laserMonDigiOverlap) * digiIndex + subindex;
747  iLaserMonADC[totalIndex] = (digi[subindex].ok() ? digi[subindex].adc() : -1);
748  }
749  }
750 }
751 
752 /* virtual */ void LaserTask::globalEndLuminosityBlock(edm::LuminosityBlock const& lb, edm::EventSetup const& es) {
753  auto lumiCache = luminosityBlockCache(lb.index());
754  _currentLS = lumiCache->currentLS;
755 
756  if (_ptype == fLocal)
757  return;
758  this->_dump();
759 
760  DQTask::globalEndLuminosityBlock(lb, es);
761 }
762 
763 /* virtual */ bool LaserTask::_isApplicable(edm::Event const& e) {
764  if (_ptype != fOnline)
765  return true;
766  else {
767  // fOnline mode
768  edm::Handle<HcalUMNioDigi> cumn;
769  if (!e.getByToken(_tokuMN, cumn))
770  return false;
771 
772  // event type check first
773  uint8_t eventType = cumn->eventType();
774  if (eventType != constants::EVENTTYPE_LASER)
775  return false;
776 
777  // check if this analysis task is of the right laser type
778  uint32_t laserType = cumn->valueUserWord(0);
779  if (laserType == _laserType)
780  return true;
781  }
782 
783  return false;
784 }
785 
786 DEFINE_FWK_MODULE(LaserTask);
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Definition: ContainerProf1D.cc:22
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Definition: LaserTask.h:73
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Definition: QIE10DataFrame.h:77
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Definition: Constants.h:99
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Definition: LaserTask.h:78
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Definition: ContainerProf2D.cc:228
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Definition: LaserTask.h:93
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Definition: LaserTask.h:70
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Definition: LaserTask.h:74
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Definition: DQTask.h:32
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Definition: LaserTask.h:134
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Definition: LaserTask.cc:392
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Definition: Flag.h:62
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Definition: LaserTask.h:136
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Definition: ContainerProf1D.cc:40
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Definition: InputTag.h:36
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Definition: LaserTask.cc:390
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Definition: LaserTask_cfi.py:24
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Definition: Constants.h:129
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Definition: LaserTask.h:80
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Definition: LaserTask.h:122
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Definition: ContainerSingleProf1D.cc:17
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Definition: LaserTask.h:109
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Definition: QIE11DataFrame.h:67
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Definition: LaserTask.h:143
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Definition: LaserTask.h:50
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Definition: LaserTask.h:95
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Definition: ContainerSingle2D.cc:68
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Definition: LaserTask.h:151
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Definition: LaserTask.h:147
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Definition: HcalDetId.h:138
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Definition: LaserTask.h:92
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Definition: LaserTask.cc:56
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Definition: LaserTask.h:132
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Definition: DQModule.h:44
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Definition: ContainerSingle1D.cc:37
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Definition: Flag.h:59
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Definition: ContainerSingle2D.cc:154
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Definition: LaserTask.h:148
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Definition: LaserTask.h:142
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Definition: LaserTask.h:64
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Definition: LaserTask.h:85
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Definition: Constants.h:86
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Definition: LaserTask.h:57
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Definition: SSEVec.h:19
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Definition: LaserTask.h:53
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Definition: LaserTask.h:145
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Definition: LaserTask.h:69
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Definition: Container1D.cc:769
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Definition: LaserTask.h:140
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Definition: Constants.h:132
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Definition: Transition.h:12
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Definition: LaserTask.h:54
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Definition: MakerMacros.h:16
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Definition: DQModule.h:55
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Definition: LaserTask.h:137
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Definition: SortedCollection.h:262
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Definition: Container1D.cc:771
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Definition: LaserTask.h:83
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Definition: ContainerSingle1D.cc:203
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Definition: DQModule.h:42
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Definition: LaserTask.h:131
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Definition: DQTask.h:81
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Definition: EventSetup.h:130
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Definition: HcalUMNioDigi.cc:35
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Definition: LaserTask.h:105
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Definition: LaserTask.h:152
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Definition: LaserTask.h:55
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Definition: LaserTask.h:72
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Definition: Constants.h:104
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Definition: LaserTask.h:123
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Definition: LaserTask.cc:512
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Definition: DataFrameContainer.h:146
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Definition: SortedCollection.h:267
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Definition: LaserTask.h:88
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Definition: Constants.h:257
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Definition: LaserTask.h:102
LaserTask::_cTimingvsLS_SubdetPM
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Definition: LaserTask.h:101
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constexpr int samples() const
total number of samples in the digi
Definition: QIE11DataFrame.h:77
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Definition: LaserTask.h:130
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Definition: Utilities.cc:156
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Definition: ContainerXXX.h:88
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Definition: LaserTask.h:116
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Definition: LaserTask.h:146
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virtual void book(DQMStore::IBooker &, HcalElectronicsMap const *, std::string subsystem="Hcal", std::string aux="")
Definition: Container1D.cc:592
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uint8_t const EVENTTYPE_LASER
Definition: Constants.h:299
edm::DataFrameContainer::begin
const_iterator begin() const
The iterator returned can not safely be used across threads.
Definition: DataFrameContainer.h:143
hcaldqm::Container2D::initialize
virtual void initialize(std::string const &folder, hashfunctions::HashType, quantity::Quantity *, quantity::Quantity *, quantity::Quantity *qz=new quantity::ValueQuantity(quantity::fN), int debug=0)
Definition: Container2D.cc:25
LaserTask::_cTimingMean_depth
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Definition: LaserTask.h:113
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Definition: ContainerSingleProf1D.cc:33
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Definition: LaserTask.h:63
LaserTask::_tagLaserMon
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Definition: LaserTask.h:126
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void book(DQMStore::IBooker &, HcalElectronicsMap const *, std::string subsystem="Hcal", std::string aux="") override
Definition: ContainerProf2D.cc:47
LaserTask::_taguMN
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Definition: LaserTask.h:52
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constexpr uint32_t rawId() const
Definition: HcalElectronicsId.h:59
hcaldqm::ContainerProf2D::initialize
void initialize(std::string const &folder, hashfunctions::HashType, quantity::Quantity *, quantity::Quantity *, quantity::Quantity *qz=new quantity::ValueQuantity(quantity::fEnergy), int debug=0) override
Definition: ContainerProf2D.cc:22
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boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
Definition: DataFrameContainer.h:61
LaserTask::globalEndLuminosityBlock
void globalEndLuminosityBlock(edm::LuminosityBlock const &, edm::EventSetup const &) override
Definition: LaserTask.cc:752
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void setBinContent(HcalDetId const &, int) override
Definition: Container2D.cc:163
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Definition: LuminosityBlock.cc:30
LaserTask::_vLaserMonIPhi
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Definition: LaserTask.h:129
LaserTask::_xMissingLaserMon
int _xMissingLaserMon
Definition: LaserTask.h:138
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constexpr int size() const
total number of samples in the digi
Definition: HODataFrame.h:27
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auto & it
Definition: splitVertices.h:48
hcaldqm::ContainerXXX::get
virtual STDTYPE & get(HcalDetId const &)
Definition: ContainerXXX.h:198
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HLT enums.
Definition: AlignableModifier.h:19
hcaldqm::DQTask::_dbService
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Definition: DQTask.h:80
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Definition: HcalElectronicsMap.cc:139
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std::vector< int > getFEDList(HcalElectronicsMap const *)
Definition: Utilities.cc:97
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Definition: LaserTask.h:56
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Definition: Utilities.cc:135
LaserTask::_cSignalRMS_Subdet
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Definition: LaserTask.h:89
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Definition: cuy.py:1009
hcaldqm::Container2D::fill
void fill(HcalDetId const &) override
Definition: Container2D.cc:52
hcaldqm::filter::HashFilter::initialize
virtual void initialize(FilterType ftype, hashfunctions::HashType htype, std::vector< uint32_t > const &)
Definition: HashFilter.cc:17
QIE11Task_cfi.eventType
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Definition: QIE11Task_cfi.py:25
hcaldqm::DQModule::_subsystem
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Definition: DQModule.h:49
hcaldqm::utilities::getRBX
int getRBX(uint32_t iphi)
Definition: Utilities.cc:242
hcaldqm::utilities::isFEDHO
bool isFEDHO(HcalElectronicsId const &)
Definition: Utilities.cc:182
hcaldqm::DQTask::_vcdaqEids
std::vector< uint32_t > _vcdaqEids
Definition: DQTask.h:69
LaserTask::_cLaserMonSumQ_Event
hcaldqm::ContainerSingleProf1D _cLaserMonSumQ_Event
Definition: LaserTask.h:144
LaserTask::_xTimingSum2
hcaldqm::ContainerXXX< double > _xTimingSum2
Definition: LaserTask.h:81
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virtual void initialize(hashfunctions::HashType, int debug=0)
Definition: ContainerXXX.h:82
hcaldqm::Container2D::book
void book(DQMStore::IBooker &, HcalElectronicsMap const *, std::string subsystem="Hcal", std::string aux="") override
Definition: Container2D.cc:567
LaserTask::_cSignalRMS_depth
hcaldqm::ContainerProf2D _cSignalRMS_depth
Definition: LaserTask.h:110
LaserTask::_filter_VME
hcaldqm::filter::HashFilter _filter_VME
Definition: LaserTask.h:65
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Readout chain identification for Hcal.
Definition: HcalElectronicsId.h:32
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hcaldqm::ContainerProf1D _cTimingvsBX_SubdetPM
Definition: LaserTask.h:104
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constexpr int iphi() const
get the cell iphi
Definition: HcalDetId.h:157
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Definition: Utilities.cc:170
LaserTask::LaserTask
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Definition: LaserTask.cc:6
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constexpr int samples() const
total number of samples in the digi
Definition: QIE10DataFrame.h:86
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int const SLOT_uTCA_MIN
Definition: Constants.h:111
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Definition: Run.h:45
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uint16_t *__restrict__ uint16_t const *__restrict__ adc
Definition: gpuClusterChargeCut.h:19
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ib
Definition: cuy.py:661
LaserTask::_cTimingRMS_depth
hcaldqm::ContainerProf2D _cTimingRMS_depth
Definition: LaserTask.h:114
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Definition: LaserTask.h:51
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Definition: Utilities.h:127
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