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SiTrivialInduceChargeOnStrips.cc
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2 
10 
11 #include <algorithm>
12 #include <iostream>
13 
14 namespace {
15  struct Count {
16  Count() {}
17 #ifdef SISTRIP_COUNT
18  // note: this code is not thread safe, counts will be inaccurate if run with multiple threads
19  double ncall = 0;
20  double ndep = 0, ndep2 = 0, maxdep = 0;
21  double nstr = 0, nstr2 = 0;
22  double ncv = 0, nval = 0, nval2 = 0, maxv = 0;
23  double dzero = 0;
24  void dep(double d) {
25  ncall++;
26  ndep += d;
27  ndep2 += d * d;
28  maxdep = std::max(d, maxdep);
29  }
30  void str(double d) {
31  nstr += d;
32  nstr2 += d * d;
33  }
34  void val(double d) {
35  ncv++;
36  nval += d;
37  nval2 += d * d;
38  maxv = std::max(d, maxv);
39  }
40  void zero() { dzero++; }
41  ~Count() {
42  std::cout << "deposits " << ncall << " " << maxdep << " " << ndep / ncall << " "
43  << std::sqrt(ndep2 * ncall - ndep * ndep) / ncall << std::endl;
44  std::cout << "zeros " << dzero << std::endl;
45  std::cout << "strips " << nstr / ndep << " " << std::sqrt(nstr2 * ndep - nstr * nstr) / ndep << std::endl;
46  std::cout << "vaules " << ncv << " " << maxv << " " << nval / ncv << " "
47  << std::sqrt(nval2 * ncv - nval * nval) / ncv << std::endl;
48  }
49  };
50  Count count;
51 #else
52  void dep(double) const {}
53  void str(double) const {}
54  void val(double) const {}
55  void zero() const {}
56  };
57  const Count count;
58 #endif
59 
60 } // namespace
61 
62 namespace {
63  constexpr int Ntypes = 14;
64  // 0 1 2 3 4 5 6 7
65  const std::string type[Ntypes] = {
66  "IB1", "IB2", "OB1", "OB2", "W1a", "W2a", "W3a", "W1b", "W2b", "W3b", "W4", "W5", "W6", "W7"};
67  enum { indexOfIB1 = 0, indexOfIB2 = 1, indexOfOB1 = 2, indexOfOB2 = 3, indexOfW1a = 4, indexOfW1b = 7 };
68 
69  inline std::vector<std::vector<float> > fillSignalCoupling(const edm::ParameterSet& conf,
70  int nTypes,
71  const std::string* typeArray) {
72  std::vector<std::vector<float> > signalCoupling;
73  signalCoupling.reserve(nTypes);
74  std::string mode = conf.getParameter<bool>("APVpeakmode") ? "Peak" : "Dec";
75  for (int i = 0; i < nTypes; ++i) {
76  std::string version = "";
77  if (typeArray[i].find('W') != std::string::npos && mode == "Dec")
78  version = conf.getParameter<bool>("CouplingConstantsRunIIDecW") ? "RunII" : "";
79  else if (typeArray[i].find('B') != std::string::npos && mode == "Dec")
80  version = conf.getParameter<bool>("CouplingConstantsRunIIDecB") ? "RunII" : "";
81 
82  auto dc = conf.getParameter<std::vector<double> >("CouplingConstant" + version + mode + typeArray[i]);
83  signalCoupling.emplace_back(dc.begin(), dc.end());
84  }
85  return signalCoupling;
86  }
87 
88  inline unsigned int typeOf(const StripGeomDetUnit& det, const TrackerTopology* tTopo) {
89  DetId id = det.geographicalId();
90  switch (det.specificType().subDetector()) {
92  return (tTopo->tibLayer(id) < 3) ? indexOfIB1 : indexOfIB2;
93  }
95  return (tTopo->tobLayer(id) > 4) ? indexOfOB1 : indexOfOB2;
96  }
98  return indexOfW1a - 1 + tTopo->tidRing(id);
99  } //fragile: relies on ordering of 'type'
101  return indexOfW1b - 1 + tTopo->tecRing(id);
102  } //fragile: relies on ordering of 'type'
103  default:
104  throw cms::Exception("Invalid subdetector") << id();
105  }
106  }
107 
108  inline double chargeDeposited(
109  size_t strip, size_t Nstrips, double amplitude, double chargeSpread, double chargePosition) {
110  double integralUpToStrip =
111  (strip == 0) ? 0. : (approx_erf((strip - chargePosition) / chargeSpread / 1.41421356237309515));
112  double integralUpToNext =
113  (strip + 1 == Nstrips) ? 1. : (approx_erf((strip + 1 - chargePosition) / chargeSpread / 1.41421356237309515));
114 
115  return 0.5 * (integralUpToNext - integralUpToStrip) * amplitude;
116  }
117 
118 } // namespace
119 
121  : signalCoupling(fillSignalCoupling(conf, Ntypes, type)), Nsigma(3.), geVperElectron(g) {}
122 
124  const StripGeomDetUnit& det,
125  std::vector<float>& localAmplitudes,
126  size_t& recordMinAffectedStrip,
127  size_t& recordMaxAffectedStrip,
128  const TrackerTopology* tTopo) const {
129  induceVector(collection_points, det, localAmplitudes, recordMinAffectedStrip, recordMaxAffectedStrip, tTopo);
130 
131  /*
132  auto ominA=recordMinAffectedStrip, omaxA=recordMaxAffectedStrip;
133  std::vector<float> oampl(localAmplitudes);
134  induceOriginal(collection_points, det, oampl, ominA, omaxA, tTopo);
135 
136  // std::cout << "orig " << ominA << " " << omaxA << " ";
137  //for (auto a : oampl) std::cout << a << ",";
138  //std::cout << std::endl;
139 
140  auto minA=recordMinAffectedStrip, maxA=recordMaxAffectedStrip;
141  std::vector<float> ampl(localAmplitudes);
142  induceVector(collection_points, det, ampl, minA, maxA, tTopo);
143 
144  // std::cout << "vect " << minA << " " << maxA << " ";
145  //for (auto a : ampl) std::cout << a << ",";
146  //std::cout << std::endl;
147 
148  float diff=0;
149  for (size_t i=0; i!=ampl.size(); ++i) { diff = std::max(diff,ampl[i]>0 ? std::abs(ampl[i]-oampl[i])/ampl[i] : 0);}
150  if (diff> 1.e-4) {
151  std::cout << diff << std::endl;
152  std::cout << "orig " << ominA << " " << omaxA << " ";
153 // for (auto a : oampl) std::cout << a << ",";
154  std::cout << std::endl;
155  std::cout << "vect " << minA << " " << maxA << " ";
156 // for (auto a : ampl) std::cout << a << ",";
157  std::cout << std::endl;
158  }
159 
160  localAmplitudes.swap(ampl);
161  recordMinAffectedStrip=minA;
162  recordMaxAffectedStrip=maxA;
163  */
164 }
165 
167  const StripGeomDetUnit& det,
168  std::vector<float>& localAmplitudes,
169  size_t& recordMinAffectedStrip,
170  size_t& recordMaxAffectedStrip,
171  const TrackerTopology* tTopo) const {
172  auto const& coupling = signalCoupling[typeOf(det, tTopo)];
173  const StripTopology& topology = dynamic_cast<const StripTopology&>(det.specificTopology());
174  const int Nstrips = topology.nstrips();
175 
176  if (Nstrips == 0)
177  return;
178 
179  const int NP = collection_points.size();
180  if (0 == NP)
181  return;
182 
183  constexpr int MaxN = 512;
184  // if NP too large split...
185 
186  for (int ip = 0; ip < NP; ip += MaxN) {
187  auto N = std::min(NP - ip, MaxN);
188 
189  count.dep(N);
190  float amplitude[N];
191  float chargePosition[N];
192  float chargeSpread[N];
193  int fromStrip[N];
194  int nStrip[N];
195 
196  // load not vectorize
197  //In strip coordinates:
198  for (int i = 0; i != N; ++i) {
199  auto j = ip + i;
200  if (0 == collection_points[j].amplitude())
201  count.zero();
202  chargePosition[i] = topology.strip(collection_points[j].position());
203  chargeSpread[i] = collection_points[j].sigma() / topology.localPitch(collection_points[j].position());
204  amplitude[i] = 0.5f * collection_points[j].amplitude() / geVperElectron;
205  }
206 
207  // this vectorize
208  for (int i = 0; i != N; ++i) {
209  fromStrip[i] = std::max(0, int(std::floor(chargePosition[i] - Nsigma * chargeSpread[i])));
210  nStrip[i] = std::min(Nstrips, int(std::ceil(chargePosition[i] + Nsigma * chargeSpread[i]))) - fromStrip[i];
211  }
212  int tot = 0;
213  for (int i = 0; i != N; ++i)
214  tot += nStrip[i];
215  tot += N; // add last strip
216  count.val(tot);
217  float value[tot];
218 
219  // assign relative position (lower bound of strip) in value;
220  int kk = 0;
221  for (int i = 0; i != N; ++i) {
222  auto delta = 1.f / (std::sqrt(2.f) * chargeSpread[i]);
223  auto pos = delta * (float(fromStrip[i]) - chargePosition[i]);
224 
225  // VI: before value[0] was not defined and value[tot] was filled
226  // to fix this the loop below was changed
227  for (int j = 0; j <= nStrip[i]; ++j) {
228  value[kk] = pos + float(j) * delta;
229  ++kk;
230  }
231  }
232  assert(kk == tot);
233 
234  // main loop fully vectorized
235  for (int k = 0; k != tot; ++k)
236  value[k] = approx_erf(value[k]);
237 
238  // saturate 0 & NStrips strip to 0 and 1???
239  kk = 0;
240  for (int i = 0; i != N; ++i) {
241  if (0 == fromStrip[i])
242  value[kk] = 0;
243  kk += nStrip[i];
244  if (Nstrips == fromStrip[i] + nStrip[i])
245  value[kk] = 1.f;
246  ++kk;
247  }
248  assert(kk == tot);
249 
250  // compute integral over strip (lower bound becomes the value)
251  for (int k = 0; k != tot - 1; ++k)
252  value[k] -= value[k + 1]; // this is negative!
253 
254  float charge[Nstrips];
255  for (int i = 0; i != Nstrips; ++i)
256  charge[i] = 0;
257  kk = 0;
258  for (int i = 0; i != N; ++i) {
259  for (int j = 0; j != nStrip[i]; ++j)
260  charge[fromStrip[i] + j] -= amplitude[i] * value[kk++];
261  ++kk; // skip last "strip"
262  }
263  assert(kk == tot);
264 
266  int minA = recordMinAffectedStrip, maxA = recordMaxAffectedStrip;
267  int sc = coupling.size();
268  for (int i = 0; i != Nstrips; ++i) {
269  int strip = i;
270  if (0 == charge[i])
271  continue;
272  auto affectedFromStrip = std::max(0, strip - sc + 1);
273  auto affectedUntilStrip = std::min(Nstrips, strip + sc);
274  for (auto affectedStrip = affectedFromStrip; affectedStrip < affectedUntilStrip; ++affectedStrip)
275  localAmplitudes[affectedStrip] += charge[i] * coupling[std::abs(affectedStrip - strip)];
276 
277  if (affectedFromStrip < minA)
278  minA = affectedFromStrip;
279  if (affectedUntilStrip > maxA)
280  maxA = affectedUntilStrip;
281  }
282  recordMinAffectedStrip = minA;
283  recordMaxAffectedStrip = maxA;
284  } // end loop ip
285 }
286 
288  const StripGeomDetUnit& det,
289  std::vector<float>& localAmplitudes,
290  size_t& recordMinAffectedStrip,
291  size_t& recordMaxAffectedStrip,
292  const TrackerTopology* tTopo) const {
293  auto const& coupling = signalCoupling[typeOf(det, tTopo)];
294  const StripTopology& topology = dynamic_cast<const StripTopology&>(det.specificTopology());
295  size_t Nstrips = topology.nstrips();
296 
297  if (!collection_points.empty())
298  count.dep(collection_points.size());
299 
300  for (auto signalpoint = collection_points.begin(); signalpoint != collection_points.end(); signalpoint++) {
301  //In strip coordinates:
302  double chargePosition = topology.strip(signalpoint->position());
303  double chargeSpread = signalpoint->sigma() / topology.localPitch(signalpoint->position());
304 
305  size_t fromStrip = size_t(std::max(0, int(std::floor(chargePosition - Nsigma * chargeSpread))));
306  size_t untilStrip = size_t(std::min(Nstrips, size_t(std::ceil(chargePosition + Nsigma * chargeSpread))));
307 
308  count.str(std::max(0, int(untilStrip) - int(fromStrip)));
309  for (size_t strip = fromStrip; strip < untilStrip; strip++) {
310  double chargeDepositedOnStrip =
311  chargeDeposited(strip, Nstrips, signalpoint->amplitude() / geVperElectron, chargeSpread, chargePosition);
312 
313  size_t affectedFromStrip = size_t(std::max(0, int(strip - coupling.size() + 1)));
314  size_t affectedUntilStrip = size_t(std::min(Nstrips, strip + coupling.size()));
315  for (size_t affectedStrip = affectedFromStrip; affectedStrip < affectedUntilStrip; affectedStrip++) {
316  localAmplitudes.at(affectedStrip) +=
317  chargeDepositedOnStrip * coupling.at((size_t)std::abs((int)affectedStrip - (int)strip));
318  }
319 
320  if (affectedFromStrip < recordMinAffectedStrip)
321  recordMinAffectedStrip = affectedFromStrip;
322  if (affectedUntilStrip > recordMaxAffectedStrip)
323  recordMaxAffectedStrip = affectedUntilStrip;
324  }
325  }
326 }
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