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Functions
CastorDbHardcode Namespace Reference

Functions

CastorCalibrationQIECoder makeCalibrationQIECoder (HcalGenericDetId fId)
 
CastorGain makeGain (HcalGenericDetId fId, bool fSmear=false)
 
CastorGainWidth makeGainWidth (HcalGenericDetId fId)
 
void makeHardcodeMap (CastorElectronicsMap &emap)
 
CastorPedestal makePedestal (HcalGenericDetId fId, bool fSmear=false)
 
CastorPedestalWidth makePedestalWidth (HcalGenericDetId fId)
 
CastorQIECoder makeQIECoder (HcalGenericDetId fId)
 
CastorQIEShape makeQIEShape ()
 
CastorRecoParam makeRecoParam (HcalGenericDetId fId)
 
CastorSaturationCorr makeSaturationCorr (HcalGenericDetId fId)
 

Function Documentation

◆ makeCalibrationQIECoder()

CastorCalibrationQIECoder CastorDbHardcode::makeCalibrationQIECoder ( HcalGenericDetId  fId)

Definition at line 85 of file CastorDbHardcode.cc.

85  {
87  float lowEdges[32];
88  for (int i = 0; i < 32; i++)
89  lowEdges[i] = -1.5 + i * 0.35;
90  result.setMinCharges(lowEdges);
91  return result;
92 }

References mps_fire::i, DetId::rawId(), and mps_fire::result.

◆ makeGain()

CastorGain CastorDbHardcode::makeGain ( HcalGenericDetId  fId,
bool  fSmear = false 
)

Definition at line 47 of file CastorDbHardcode.cc.

47  {
49  float value0 = 0;
51  value0 = 0.177; // GeV/fC
52  else {
53  if (HcalDetId(fId).depth() == 1)
54  value0 = 0.2146;
55  else if (HcalDetId(fId).depth() == 2)
56  value0 = 0.3375;
57  }
58  float value[4] = {value0, value0, value0, value0};
59  if (fSmear)
60  for (int i = 0; i < 4; i++)
61  value[i] = CLHEP::RandGauss::shoot(value0, width.getValue(i));
62  CastorGain result(fId.rawId(), value[0], value[1], value[2], value[3]);
63  return result;
64 }

References HcalDetId::depth(), HcalGenericDetId::genericSubdet(), HcalGenericDetId::HcalGenForward, mps_fire::i, makeGainWidth(), DetId::rawId(), mps_fire::result, and ApeEstimator_cff::width.

Referenced by SiStripGainESSource::produce(), and CastorHardcodeCalibrations::produceGains().

◆ makeGainWidth()

CastorGainWidth CastorDbHardcode::makeGainWidth ( HcalGenericDetId  fId)

Definition at line 66 of file CastorDbHardcode.cc.

66  {
67  float value = 0;
69  return result;
70 }

References DetId::rawId(), mps_fire::result, and relativeConstraints::value.

Referenced by makeGain(), and CastorHardcodeCalibrations::produceGainWidths().

◆ makeHardcodeMap()

void CastorDbHardcode::makeHardcodeMap ( CastorElectronicsMap emap)

load map

Definition at line 117 of file CastorDbHardcode.cc.

117  {
118  /* HBHE crate numbering */
119  int hbhecrate[EMAP_NHBHECR] = {0, 1, 4, 5, 10, 11, 14, 15, 17};
120  /* HF crate numbering */
121  int hfcrate[EMAP_NHFCR] = {2, 9, 12};
122  /* HO crate numbering */
123  int hocrate[EMAP_NHOCR] = {3, 7, 6, 13};
124  /* HBHE FED numbering of DCCs */
125  int fedhbhenum[EMAP_NHBHECR][2] = {
126  {702, 703}, {704, 705}, {700, 701}, {706, 707}, {716, 717}, {708, 709}, {714, 715}, {710, 711}, {712, 713}};
127  /* HF FED numbering of DCCs */
128  int fedhfnum[EMAP_NHFCR][2] = {{718, 719}, {720, 721}, {722, 723}};
129  /* HO FED numbering of DCCs */
130  int fedhonum[EMAP_NHOCR][2] = {{724, 725}, {726, 727}, {728, 729}, {730, 731}};
131  /* HBHE/HF htr slot offsets for set of three htrs */
132  int ihslot[EMAP_NHSETS] = {2, 5, 13, 16};
133  /* HO htr slot offsets for three sets of four htrs */
134  int ihslotho[EMAP_NHSETSHO][EMAP_NHTRSHO] = {{2, 3, 4, 5}, {6, 7, 13, 14}, {15, 16, 17, 18}};
135  /* iphi (lower) starting index for each HBHE crate */
136  int ihbhephis[EMAP_NHBHECR] = {11, 19, 3, 27, 67, 35, 59, 43, 51};
137  /* iphi (lower) starting index for each HF crate */
138  int ihfphis[EMAP_NHFCR] = {3, 27, 51};
139  /* iphi (lower) starting index for each HO crate */
140  int ihophis[EMAP_NHOCR] = {71, 17, 35, 53};
141  /* ihbheetadepth - unique HBHE {eta,depth} assignments per fiber and fiber channel */
142  int ihbheetadepth[EMAP_NHTRS][EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][2] = {
143  {{{{11, 1}, {7, 1}, {3, 1}}, /* htr 0 (HB) -bot(+top) */
144  {{5, 1}, {1, 1}, {9, 1}},
145  {{11, 1}, {7, 1}, {3, 1}},
146  {{5, 1}, {1, 1}, {9, 1}},
147  {{10, 1}, {6, 1}, {2, 1}},
148  {{8, 1}, {4, 1}, {12, 1}},
149  {{10, 1}, {6, 1}, {2, 1}},
150  {{8, 1}, {4, 1}, {12, 1}}},
151  {{{11, 1}, {7, 1}, {3, 1}}, /* htr 0 (HB) +bot(-top) */
152  {{5, 1}, {1, 1}, {9, 1}},
153  {{11, 1}, {7, 1}, {3, 1}},
154  {{5, 1}, {1, 1}, {9, 1}},
155  {{10, 1}, {6, 1}, {2, 1}},
156  {{8, 1}, {4, 1}, {12, 1}},
157  {{10, 1}, {6, 1}, {2, 1}},
158  {{8, 1}, {4, 1}, {12, 1}}}},
159  {{{{16, 2}, {15, 2}, {14, 1}}, /* htr 1 (HBHE) -bot(+top) */
160  {{15, 1}, {13, 1}, {16, 1}},
161  {{16, 2}, {15, 2}, {14, 1}},
162  {{15, 1}, {13, 1}, {16, 1}},
163  {{17, 1}, {16, 3}, {26, 1}},
164  {{18, 1}, {18, 2}, {26, 2}},
165  {{17, 1}, {16, 3}, {25, 1}},
166  {{18, 1}, {18, 2}, {25, 2}}},
167  {{{16, 2}, {15, 2}, {14, 1}}, /* htr 1 (HBHE) +bot(-top) */
168  {{15, 1}, {13, 1}, {16, 1}},
169  {{16, 2}, {15, 2}, {14, 1}},
170  {{15, 1}, {13, 1}, {16, 1}},
171  {{17, 1}, {16, 3}, {25, 1}},
172  {{18, 1}, {18, 2}, {25, 2}},
173  {{17, 1}, {16, 3}, {26, 1}},
174  {{18, 1}, {18, 2}, {26, 2}}}},
175  {{{{28, 1}, {28, 2}, {29, 1}}, /* htr 2 (HE) -bot(+top) */
176  {{28, 3}, {24, 2}, {24, 1}},
177  {{27, 1}, {27, 2}, {29, 2}},
178  {{27, 3}, {23, 2}, {23, 1}},
179  {{19, 2}, {20, 1}, {22, 2}},
180  {{19, 1}, {20, 2}, {22, 1}},
181  {{19, 2}, {20, 1}, {21, 2}},
182  {{19, 1}, {20, 2}, {21, 1}}},
183  {{{27, 1}, {27, 2}, {29, 2}}, /* htr 2 (HE) +bot(-top) */
184  {{27, 3}, {23, 2}, {23, 1}},
185  {{28, 1}, {28, 2}, {29, 1}},
186  {{28, 3}, {24, 2}, {24, 1}},
187  {{19, 2}, {20, 1}, {21, 2}},
188  {{19, 1}, {20, 2}, {21, 1}},
189  {{19, 2}, {20, 1}, {22, 2}},
190  {{19, 1}, {20, 2}, {22, 1}}}}};
191  /* ihfetadepth - unique HF {eta,depth} assignments per fiber and fiber channel */
192  int ihfetadepth[EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][2] = {{{{33, 1}, {31, 1}, {29, 1}}, /* top */
193  {{32, 1}, {30, 1}, {34, 1}},
194  {{33, 2}, {31, 2}, {29, 2}},
195  {{32, 2}, {30, 2}, {34, 2}},
196  {{34, 2}, {32, 2}, {30, 2}},
197  {{31, 2}, {29, 2}, {33, 2}},
198  {{34, 1}, {32, 1}, {30, 1}},
199  {{31, 1}, {29, 1}, {33, 1}}},
200  {{{41, 1}, {37, 1}, {35, 1}}, /* bot */
201  {{38, 1}, {36, 1}, {39, 1}},
202  {{41, 2}, {37, 2}, {35, 2}},
203  {{38, 2}, {36, 2}, {39, 2}},
204  {{40, 2}, {38, 2}, {36, 2}},
205  {{37, 2}, {35, 2}, {39, 2}},
206  {{40, 1}, {38, 1}, {36, 1}},
207  {{37, 1}, {35, 1}, {39, 1}}}};
208  /* ihoetasidephi - unique HO {eta,side,phi} assignments per fiber and fiber channel */
209  int ihoetasidephi[EMAP_NHTRSHO][EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][3] = {
210  {{{{1, -1, 0}, {2, -1, 0}, {3, -1, 0}}, /* htr 0 (HO) top */
211  {{1, -1, 1}, {2, -1, 1}, {3, -1, 1}},
212  {{1, -1, 2}, {2, -1, 2}, {3, -1, 2}},
213  {{1, -1, 3}, {2, -1, 3}, {3, -1, 3}},
214  {{1, -1, 4}, {2, -1, 4}, {3, -1, 4}},
215  {{1, -1, 5}, {2, -1, 5}, {3, -1, 5}},
216  {{14, 1, 0}, {14, 1, 1}, {14, 1, 2}},
217  {{14, 1, 3}, {14, 1, 4}, {14, 1, 5}}},
218  {{{1, 1, 0}, {2, 1, 0}, {3, 1, 0}}, /* htr 0 (HO) bot */
219  {{1, 1, 1}, {2, 1, 1}, {3, 1, 1}},
220  {{1, 1, 2}, {2, 1, 2}, {3, 1, 2}},
221  {{1, 1, 3}, {2, 1, 3}, {3, 1, 3}},
222  {{1, 1, 4}, {2, 1, 4}, {3, 1, 4}},
223  {{1, 1, 5}, {2, 1, 5}, {3, 1, 5}},
224  {{15, 1, 0}, {15, 1, 1}, {15, 1, 2}},
225  {{15, 1, 3}, {15, 1, 4}, {15, 1, 5}}}},
226  {{{{6, 1, 0}, {6, 1, 1}, {6, 1, 2}}, /* htr 1 (HO) top */
227  {{6, 1, 3}, {6, 1, 4}, {6, 1, 5}},
228  {{7, 1, 0}, {7, 1, 1}, {7, 1, 2}},
229  {{7, 1, 3}, {7, 1, 4}, {7, 1, 5}},
230  {{8, 1, 0}, {8, 1, 1}, {8, 1, 2}},
231  {{8, 1, 3}, {8, 1, 4}, {8, 1, 5}},
232  {{9, 1, 0}, {9, 1, 1}, {9, 1, 2}},
233  {{9, 1, 3}, {9, 1, 4}, {9, 1, 5}}},
234  {{{10, 1, 0}, {10, 1, 1}, {10, 1, 2}}, /* htr 1 (HO) bot */
235  {{10, 1, 3}, {10, 1, 4}, {10, 1, 5}},
236  {{11, 1, 0}, {11, 1, 1}, {11, 1, 2}},
237  {{11, 1, 3}, {11, 1, 4}, {11, 1, 5}},
238  {{12, 1, 0}, {12, 1, 1}, {12, 1, 2}},
239  {{12, 1, 3}, {12, 1, 4}, {12, 1, 5}},
240  {{13, 1, 0}, {13, 1, 1}, {13, 1, 2}},
241  {{13, 1, 3}, {13, 1, 4}, {13, 1, 5}}}},
242  {{{{4, -1, 0}, {4, -1, 1}, {0, 0, 0}}, /* htr 2 (HO) top */
243  {{4, -1, 2}, {4, -1, 3}, {0, 0, 0}},
244  {{4, -1, 4}, {4, -1, 5}, {0, 0, 0}},
245  {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}},
246  {{5, -1, 0}, {5, -1, 1}, {5, -1, 2}},
247  {{5, -1, 3}, {5, -1, 4}, {5, -1, 5}},
248  {{14, -1, 0}, {14, -1, 1}, {14, -1, 2}},
249  {{14, -1, 3}, {14, -1, 4}, {14, -1, 5}}},
250  {{{4, 1, 0}, {4, 1, 1}, {0, 0, 0}}, /* htr 2 (HO) bot */
251  {{4, 1, 2}, {4, 1, 3}, {0, 0, 0}},
252  {{4, 1, 4}, {4, 1, 5}, {0, 0, 0}},
253  {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}},
254  {{5, 1, 0}, {5, 1, 1}, {5, 1, 2}},
255  {{5, 1, 3}, {5, 1, 4}, {5, 1, 5}},
256  {{15, -1, 0}, {15, -1, 1}, {15, -1, 2}},
257  {{15, -1, 3}, {15, -1, 4}, {15, -1, 5}}}},
258  {{{{6, -1, 0}, {6, -1, 1}, {6, -1, 2}}, /* htr 3 (HO) top */
259  {{6, -1, 3}, {6, -1, 4}, {6, -1, 5}},
260  {{7, -1, 0}, {7, -1, 1}, {7, -1, 2}},
261  {{7, -1, 3}, {7, -1, 4}, {7, -1, 5}},
262  {{8, -1, 0}, {8, -1, 1}, {8, -1, 2}},
263  {{8, -1, 3}, {8, -1, 4}, {8, -1, 5}},
264  {{9, -1, 0}, {9, -1, 1}, {9, -1, 2}},
265  {{9, -1, 3}, {9, -1, 4}, {9, -1, 5}}},
266  {{{10, -1, 0}, {10, -1, 1}, {10, -1, 2}}, /* htr 3 (HO) bot */
267  {{10, -1, 3}, {10, -1, 4}, {10, -1, 5}},
268  {{11, -1, 0}, {11, -1, 1}, {11, -1, 2}},
269  {{11, -1, 3}, {11, -1, 4}, {11, -1, 5}},
270  {{12, -1, 0}, {12, -1, 1}, {12, -1, 2}},
271  {{12, -1, 3}, {12, -1, 4}, {12, -1, 5}},
272  {{13, -1, 0}, {13, -1, 1}, {13, -1, 2}},
273  {{13, -1, 3}, {13, -1, 4}, {13, -1, 5}}}}};
274  int ic, is, ih, itb, ifb, ifc, ifwtb, iphi_loc;
275  int iside, ieta, iphi, idepth, icrate, ihtr, ihtr_fi, ifi_ch, ispigot, idcc, /*idcc_sl,*/ ifed;
276  std::string det;
277  std::string fpga;
278  // printf(" side eta phi depth det crate htr fpga htr_fi fi_ch spigo dcc dcc_sl fedid\n");
279  /* all HBHE crates */
280  for (ic = 0; ic < EMAP_NHBHECR; ic++) {
281  /* four sets of three htrs per crate */
282  for (is = 0; is < EMAP_NHSETS; is++) {
283  /* three htrs per set */
284  for (ih = 0; ih < EMAP_NHTRS; ih++) {
285  /* top and bottom */
286  for (itb = 0; itb < EMAP_NTOPBOT; itb++) {
287  /* eight fibers per HTR FPGA */
288  for (ifb = 0; ifb < EMAP_NFBR; ifb++) {
289  /* three channels per fiber */
290  for (ifc = 0; ifc < EMAP_NFCH; ifc++) {
291  icrate = hbhecrate[ic];
292  iside = is < EMAP_NHSETS / 2 ? -1 : 1;
293  ifwtb = (is / 2 + itb + 1) % 2;
294  ieta = ihbheetadepth[ih][ifwtb][ifb][ifc][0];
295  idepth = ihbheetadepth[ih][ifwtb][ifb][ifc][1];
296  ihtr = ihslot[is] + ih;
297  det = ((ieta > 16 || idepth > 2) ? ("HE") : ("HB"));
298  fpga = ((itb % 2) == 1) ? ("bot") : ("top");
299  ihtr_fi = ifb + 1;
300  ifi_ch = ifc;
301  iphi = (ieta > 20) ? (ihbhephis[ic] + (is % 2) * 4 + itb * 2 - 1) % 72 + 1
302  : (ihbhephis[ic] + (is % 2) * 4 + itb * 2 + (ifb / 2 + is / 2 + 1) % 2 - 1) % 72 + 1;
303  ispigot = (is % 2) * 6 + ih * 2 + itb;
304  idcc = is < EMAP_NHSETS / 2 ? 1 : 2;
305  //idcc_sl=idcc==1?9:19;
306  ifed = fedhbhenum[ic][idcc - 1];
308  CastorElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed - 700);
309  elId.setHTR(icrate, ihtr, (fpga == "top") ? (1) : (0));
310  HcalDetId hId((det == "HB") ? (HcalBarrel) : (HcalEndcap), ieta * iside, iphi, idepth);
311  emap.mapEId2chId(elId, hId);
312 
313  // printf(" %9d %9d %9d %9d %9s %9d %9d %9s %9d %9d %9d %9d %9d %9d\n",iside,ieta,iphi,idepth,&det,icrate,ihtr,&fpga,ihtr_fi,ifi_ch,ispigot,idcc,idcc_sl,ifed);
314  }
315  }
316  }
317  }
318  }
319  }
320  /* all HF crates */
321  for (ic = 0; ic < EMAP_NHFCR; ic++) {
322  /* four sets of three htrs per crate */
323  for (is = 0; is < EMAP_NHSETS; is++) {
324  /* three htrs per set */
325  for (ih = 0; ih < EMAP_NHTRS; ih++) {
326  /* top and bottom */
327  for (itb = 0; itb < EMAP_NTOPBOT; itb++) {
328  /* eight fibers per HTR FPGA */
329  for (ifb = 0; ifb < EMAP_NFBR; ifb++) {
330  /* three channels per fiber */
331  for (ifc = 0; ifc < EMAP_NFCH; ifc++) {
332  icrate = hfcrate[ic];
333  iside = is < EMAP_NHSETS / 2 ? -1 : 1;
334  ieta = ihfetadepth[itb][ifb][ifc][0];
335  idepth = ihfetadepth[itb][ifb][ifc][1];
336  ihtr = ihslot[is] + ih;
337  det = "HF";
338  fpga = ((itb % 2) == 1) ? ("bot") : ("top");
339  ihtr_fi = ifb + 1;
340  ifi_ch = ifc;
341  iphi = (ieta > 39) ? (ihfphis[ic] + (is % 2) * 12 + ih * 4 - 3) % 72 + 1
342  : (ihfphis[ic] + (is % 2) * 12 + ih * 4 + (ifb / 4) * 2 - 1) % 72 + 1;
343  ispigot = (is % 2) * 6 + ih * 2 + itb;
344  idcc = is < EMAP_NHSETS / 2 ? 1 : 2;
345  //idcc_sl=idcc==1?9:19;
346  ifed = fedhfnum[ic][idcc - 1];
347  CastorElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed - 700);
348  elId.setHTR(icrate, ihtr, (fpga == "top") ? (1) : (0));
349  HcalDetId hId(HcalForward, ieta * iside, iphi, idepth);
350  emap.mapEId2chId(elId, hId);
351  // printf(" %9d %9d %9d %9d %9s %9d %9d %9s %9d %9d %9d %9d %9d %9d\n",iside,ieta,iphi,idepth,&det,icrate,ihtr,&fpga,ihtr_fi,ifi_ch,ispigot,idcc,idcc_sl,ifed);
352  }
353  }
354  }
355  }
356  }
357  }
358  /* all HO crates */
359  for (ic = 0; ic < EMAP_NHOCR; ic++) {
360  /* three sets of four htrs per crate */
361  for (is = 0; is < EMAP_NHSETSHO; is++) {
362  /* four htrs per set */
363  for (ih = 0; ih < EMAP_NHTRSHO; ih++) {
364  /* top and bottom */
365  for (itb = 0; itb < EMAP_NTOPBOT; itb++) {
366  /* eight fibers per HTR FPGA */
367  for (ifb = 0; ifb < EMAP_NFBR; ifb++) {
368  /* three channels per fiber */
369  for (ifc = 0; ifc < EMAP_NFCH; ifc++) {
370  icrate = hocrate[ic];
371  idepth = 1;
372  ieta = ihoetasidephi[ih][itb][ifb][ifc][0];
373  iside = ihoetasidephi[ih][itb][ifb][ifc][1];
374  iphi_loc = ihoetasidephi[ih][itb][ifb][ifc][2];
375  ihtr = ihslotho[is][ih];
376  det = "HO";
377  fpga = ((itb % 2) == 1) ? ("bot") : ("top");
378  ihtr_fi = ifb + 1;
379  ifi_ch = ifc;
380  iphi = (ihophis[ic] + is * 6 + iphi_loc - 1) % 72 + 1;
381  ispigot = ihtr < 9 ? (ihtr - 2) * 2 + itb : (ihtr - 13) * 2 + itb;
382  idcc = ihtr < 9 ? 1 : 2;
383  //idcc_sl=idcc==1?9:19;
384  ifed = fedhonum[ic][idcc - 1];
385  CastorElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed - 700);
386  elId.setHTR(icrate, ihtr, (fpga == "top") ? (1) : (0));
387  if (ieta == 0) { // unmapped
389  } else {
390  HcalDetId hId(HcalOuter, ieta * iside, iphi, 4); // HO is officially "depth=4"
391  emap.mapEId2chId(elId, hId);
392  }
393  // printf(" %9d %9d %9d %9d %9s %9d %9d %9s %9d %9d %9d %9d %9d %9d\n",iside,ieta,iphi,idepth,&det,icrate,ihtr,&fpga,ihtr_fi,ifi_ch,ispigot,idcc,idcc_sl,ifed);
394  }
395  }
396  }
397  }
398  }
399  }
400 
401  emap.sort();
402 }

References EMAP_NFBR, EMAP_NFCH, EMAP_NHBHECR, EMAP_NHFCR, EMAP_NHOCR, EMAP_NHSETS, EMAP_NHSETSHO, EMAP_NHTRS, EMAP_NHTRSHO, EMAP_NTOPBOT, HcalBarrel, HcalEndcap, HcalForward, HcalOuter, LEDCalibrationChannels::ieta, LEDCalibrationChannels::iphi, CastorElectronicsMap::mapEId2chId(), CastorElectronicsId::setHTR(), CastorElectronicsMap::sort(), AlCaHLTBitMon_QueryRunRegistry::string, and HcalDetId::Undefined.

Referenced by CastorHardcodeCalibrations::produceElectronicsMap().

◆ makePedestal()

CastorPedestal CastorDbHardcode::makePedestal ( HcalGenericDetId  fId,
bool  fSmear = false 
)

Definition at line 12 of file CastorDbHardcode.cc.

12  {
14  float value0 = fId.genericSubdet() == HcalGenericDetId::HcalGenForward ? 11. : 4.; // fC
15  float value[4] = {value0, value0, value0, value0};
16  if (fSmear) {
17  for (int i = 0; i < 4; i++) {
18  value[i] =
19  CLHEP::RandGauss::shoot(value0, width.getWidth(i) / 100.); // ignore correlations, assume 10K pedestal run
20  while (value[i] <= 0)
21  value[i] = CLHEP::RandGauss::shoot(value0, width.getWidth(i));
22  }
23  }
24  CastorPedestal result(fId.rawId(), value[0], value[1], value[2], value[3]);
25  return result;
26 }

References HcalGenericDetId::genericSubdet(), HcalGenericDetId::HcalGenForward, mps_fire::i, makePedestalWidth(), DetId::rawId(), mps_fire::result, and ApeEstimator_cff::width.

Referenced by CastorHardcodeCalibrations::producePedestals().

◆ makePedestalWidth()

CastorPedestalWidth CastorDbHardcode::makePedestalWidth ( HcalGenericDetId  fId)

Definition at line 28 of file CastorDbHardcode.cc.

28  {
29  float value = 0;
30  /*
31  if (fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel ||
32  fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) value = 0.7;
33  else if (fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap) value = 0.9;
34  else if (fId.genericSubdet() == HcalGenericDetId::HcalGenForward) value = 2.5;
35  */
36  // everything in fC
38  for (int i = 0; i < 4; i++) {
39  double width = value;
40  for (int j = 0; j < 4; j++) {
41  result.setSigma(i, j, i == j ? width * width : 0);
42  }
43  }
44  return result;
45 }

References mps_fire::i, dqmiolumiharvest::j, DetId::rawId(), mps_fire::result, relativeConstraints::value, and ApeEstimator_cff::width.

Referenced by makePedestal(), and CastorHardcodeCalibrations::producePedestalWidths().

◆ makeQIECoder()

CastorQIECoder CastorDbHardcode::makeQIECoder ( HcalGenericDetId  fId)

Definition at line 72 of file CastorDbHardcode.cc.

72  {
74  float offset = 0;
75  float slope = fId.genericSubdet() == HcalGenericDetId::HcalGenForward ? 0.36 : 0.92; // ADC/fC
76  for (unsigned range = 0; range < 4; range++) {
77  for (unsigned capid = 0; capid < 4; capid++) {
78  result.setOffset(capid, range, offset);
79  result.setSlope(capid, range, slope);
80  }
81  }
82  return result;
83 }

References HcalGenericDetId::genericSubdet(), HcalGenericDetId::HcalGenForward, hltrates_dqm_sourceclient-live_cfg::offset, FastTimerService_cff::range, DetId::rawId(), mps_fire::result, and slope.

Referenced by CastorHardcodeCalibrations::produceQIEData().

◆ makeQIEShape()

CastorQIEShape CastorDbHardcode::makeQIEShape ( )

Definition at line 94 of file CastorDbHardcode.cc.

94 { return CastorQIEShape(); }

◆ makeRecoParam()

CastorRecoParam CastorDbHardcode::makeRecoParam ( HcalGenericDetId  fId)

Definition at line 96 of file CastorDbHardcode.cc.

96  {
97  CastorRecoParam result(fId.rawId(), 4, 2);
98  return result;
99 }

References DetId::rawId(), and mps_fire::result.

Referenced by CastorHardcodeCalibrations::produceRecoParams().

◆ makeSaturationCorr()

CastorSaturationCorr CastorDbHardcode::makeSaturationCorr ( HcalGenericDetId  fId)

Definition at line 101 of file CastorDbHardcode.cc.

101  {
103  return result;
104 }

References DetId::rawId(), and mps_fire::result.

Referenced by CastorHardcodeCalibrations::produceSaturationCorrs().

EMAP_NHSETSHO
#define EMAP_NHSETSHO
Definition: CastorDbHardcode.cc:115
FastTimerService_cff.range
range
Definition: FastTimerService_cff.py:34
ApeEstimator_cff.width
width
Definition: ApeEstimator_cff.py:24
HcalDetId::Undefined
static const HcalDetId Undefined
Definition: HcalDetId.h:273
mps_fire.i
i
Definition: mps_fire.py:355
CastorDbHardcode::makePedestalWidth
CastorPedestalWidth makePedestalWidth(HcalGenericDetId fId)
Definition: CastorDbHardcode.cc:28
EMAP_NHTRS
#define EMAP_NHTRS
Definition: CastorDbHardcode.cc:111
EMAP_NHSETS
#define EMAP_NHSETS
Definition: CastorDbHardcode.cc:112
HcalDetId::depth
constexpr int depth() const
get the tower depth
Definition: HcalDetId.h:164
HcalBarrel
Definition: HcalAssistant.h:33
CastorElectronicsId
Readout chain identification for Castor Bits for the readout chain : some names need change!...
Definition: CastorElectronicsId.h:20
CastorPedestal
Definition: CastorPedestal.h:16
CastorPedestalWidth
Definition: CastorPedestalWidth.h:16
CastorRecoParam
Definition: CastorRecoParam.h:13
CastorDbHardcode::makeGainWidth
CastorGainWidth makeGainWidth(HcalGenericDetId fId)
Definition: CastorDbHardcode.cc:66
LEDCalibrationChannels.iphi
iphi
Definition: LEDCalibrationChannels.py:64
EMAP_NFCH
#define EMAP_NFCH
Definition: CastorDbHardcode.cc:110
DetId
Definition: DetId.h:17
EMAP_NFBR
#define EMAP_NFBR
Definition: CastorDbHardcode.cc:109
EMAP_NTOPBOT
#define EMAP_NTOPBOT
Definition: CastorDbHardcode.cc:113
CastorElectronicsMap::sort
void sort()
Definition: CastorElectronicsMap.h:78
HcalOuter
Definition: HcalAssistant.h:35
CastorGainWidth
Definition: CastorGainWidth.h:12
AlCaHLTBitMon_QueryRunRegistry.string
string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:256
EMAP_NHFCR
#define EMAP_NHFCR
Definition: CastorDbHardcode.cc:107
LEDCalibrationChannels.ieta
ieta
Definition: LEDCalibrationChannels.py:63
EMAP_NHTRSHO
#define EMAP_NHTRSHO
Definition: CastorDbHardcode.cc:114
HcalDetId
Definition: HcalDetId.h:12
value
Definition: value.py:1
CastorGain
Definition: CastorGain.h:13
EMAP_NHBHECR
#define EMAP_NHBHECR
Definition: CastorDbHardcode.cc:106
HcalForward
Definition: HcalAssistant.h:36
EMAP_NHOCR
#define EMAP_NHOCR
Definition: CastorDbHardcode.cc:108
DetId::rawId
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
HcalEndcap
Definition: HcalAssistant.h:34
HcalGenericDetId::genericSubdet
HcalGenericSubdetector genericSubdet() const
Definition: HcalGenericDetId.cc:21
relativeConstraints.value
value
Definition: relativeConstraints.py:53
CastorSaturationCorr
Definition: CastorSaturationCorr.h:13
CastorQIECoder
Definition: CastorQIECoder.h:21
CastorElectronicsMap::mapEId2chId
bool mapEId2chId(CastorElectronicsId fElectronicsId, DetId fId)
Definition: CastorElectronicsMap.cc:216
mps_fire.result
result
Definition: mps_fire.py:303
dqmiolumiharvest.j
j
Definition: dqmiolumiharvest.py:66
slope
static const double slope[3]
Definition: CastorTimeSlew.cc:6
hltrates_dqm_sourceclient-live_cfg.offset
offset
Definition: hltrates_dqm_sourceclient-live_cfg.py:82
HcalGenericDetId::HcalGenForward
Definition: HcalGenericDetId.h:22
CastorCalibrationQIECoder
Definition: CastorCalibrationQIECoder.h:17
CastorQIEShape
Definition: CastorQIEShape.h:14