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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  double ncall=0;
17  double ndep=0, ndep2=0, maxdep=0;
18  double nstr=0, nstr2=0;
19  double ncv=0, nval=0, nval2=0, maxv=0;
20  double dzero=0;
21  void dep(double d) { ncall++; ndep+=d; ndep2+=d*d;maxdep=std::max(d,maxdep);}
22  void str(double d) { nstr+=d; nstr2+=d*d;}
23  void val(double d) { ncv++; nval+=d; nval2+=d*d; maxv=std::max(d,maxv);}
24  void zero() { dzero++;}
25  ~Count() {
26 #ifdef SISTRIP_COUNT
27  std::cout << "deposits " << ncall << " " << maxdep << " " << ndep/ncall << " " << std::sqrt(ndep2*ncall -ndep*ndep)/ncall << std::endl;
28  std::cout << "zeros " << dzero << std::endl;
29  std::cout << "strips " << nstr/ndep << " " << std::sqrt(nstr2*ndep -nstr*nstr)/ndep << std::endl;
30  std::cout << "vaules " << ncv << " " << maxv << " " << nval/ncv << " " << std::sqrt(nval2*ncv -nval*nval)/ncv << std::endl;
31 #endif
32  }
33  };
34 
35  Count count;
36 }
37 
38 
39 namespace {
40  constexpr int Ntypes = 14;
41  // 0 1 2 3 4 5 6 7
42  const std::string type[Ntypes] = { "IB1", "IB2","OB1","OB2","W1a","W2a","W3a","W1b","W2b","W3b","W4","W5","W6","W7"};
43  enum { indexOfIB1=0, indexOfIB2=1, indexOfOB1=2, indexOfOB2=3, indexOfW1a=4, indexOfW1b=7};
44 
45  inline
46  std::vector<std::vector<float> >
47  fillSignalCoupling(const edm::ParameterSet& conf, int nTypes, const std::string* typeArray) {
48  std::vector<std::vector<float> > signalCoupling;
49  signalCoupling.reserve(nTypes);
50  std::string mode = conf.getParameter<bool>("APVpeakmode") ? "Peak" : "Dec";
51  for(int i=0; i<nTypes; ++i) {
52  auto dc = conf.getParameter<std::vector<double> >("CouplingConstant"+mode+typeArray[i]);
53  signalCoupling.emplace_back(dc.begin(),dc.end());
54  }
55  return signalCoupling;
56  }
57 
58  inline unsigned int indexOf(const std::string& t) { return std::find( type, type + Ntypes, t) - type;}
59 
60 
61  inline unsigned int typeOf(const StripGeomDetUnit& det, const TrackerTopology *tTopo) {
62  DetId id = det.geographicalId();
63  switch (det.specificType().subDetector()) {
64  case GeomDetEnumerators::TIB: {return (tTopo->tibLayer(id) < 3) ? indexOfIB1 : indexOfIB2;}
65  case GeomDetEnumerators::TOB: {return (tTopo->tobLayer(id) > 4) ? indexOfOB1 : indexOfOB2;}
66  case GeomDetEnumerators::TID: {return indexOfW1a -1 + tTopo->tidRing(id);} //fragile: relies on ordering of 'type'
67  case GeomDetEnumerators::TEC: {return indexOfW1b -1 + tTopo->tecRing(id);} //fragile: relies on ordering of 'type'
68  default: throw cms::Exception("Invalid subdetector") << id();
69  }
70  }
71 
72  inline double
73  chargeDeposited(size_t strip, size_t Nstrips, double amplitude, double chargeSpread, double chargePosition) {
74  double integralUpToStrip = (strip == 0) ? 0. : ( approx_erf( (strip-chargePosition)/chargeSpread/1.41421356237309515 ) );
75  double integralUpToNext = (strip+1 == Nstrips) ? 1. : ( approx_erf( (strip+1-chargePosition)/chargeSpread/1.41421356237309515 ) );
76 
77  return 0.5 * (integralUpToNext - integralUpToStrip) * amplitude;
78  }
79 
80 }
81 
82 
85  : signalCoupling(fillSignalCoupling(conf, Ntypes, type)), Nsigma(3.), geVperElectron(g) {
86 }
87 
88 void
91  const StripGeomDetUnit& det,
92  std::vector<float>& localAmplitudes,
93  size_t& recordMinAffectedStrip,
94  size_t& recordMaxAffectedStrip,
95  const TrackerTopology *tTopo) const {
96 
97 
98  induceVector(collection_points, det, localAmplitudes, recordMinAffectedStrip, recordMaxAffectedStrip, tTopo);
99 
100  /*
101  auto ominA=recordMinAffectedStrip, omaxA=recordMaxAffectedStrip;
102  std::vector<float> oampl(localAmplitudes);
103  induceOriginal(collection_points, det, oampl, ominA, omaxA, tTopo);
104 
105  // std::cout << "orig " << ominA << " " << omaxA << " ";
106  //for (auto a : oampl) std::cout << a << ",";
107  //std::cout << std::endl;
108 
109  auto minA=recordMinAffectedStrip, maxA=recordMaxAffectedStrip;
110  std::vector<float> ampl(localAmplitudes);
111  induceVector(collection_points, det, ampl, minA, maxA, tTopo);
112 
113  // std::cout << "vect " << minA << " " << maxA << " ";
114  //for (auto a : ampl) std::cout << a << ",";
115  //std::cout << std::endl;
116 
117  float diff=0;
118  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);}
119  if (diff> 1.e-4) {
120  std::cout << diff << std::endl;
121  std::cout << "orig " << ominA << " " << omaxA << " ";
122 // for (auto a : oampl) std::cout << a << ",";
123  std::cout << std::endl;
124  std::cout << "vect " << minA << " " << maxA << " ";
125 // for (auto a : ampl) std::cout << a << ",";
126  std::cout << std::endl;
127  }
128 
129  localAmplitudes.swap(ampl);
130  recordMinAffectedStrip=minA;
131  recordMaxAffectedStrip=maxA;
132  */
133 
134 }
135 
136 void
139  const StripGeomDetUnit& det,
140  std::vector<float>& localAmplitudes,
141  size_t& recordMinAffectedStrip,
142  size_t& recordMaxAffectedStrip,
143  const TrackerTopology *tTopo) const {
144 
145 
146  auto const & coupling = signalCoupling[typeOf(det,tTopo)];
147  const StripTopology& topology = dynamic_cast<const StripTopology&>(det.specificTopology());
148  const int Nstrips = topology.nstrips();
149 
150  if (Nstrips == 0) return;
151 
152  const int NP = collection_points.size();
153  if(0==NP) return;
154 
155  constexpr int MaxN = 512;
156  // if NP too large split...
157 
158  for (int ip=0; ip<NP; ip+=MaxN) {
159  auto N = std::min(NP-ip,MaxN);
160 
161  count.dep(N);
162  float amplitude[N];
163  float chargePosition[N];
164  float chargeSpread[N];
165  int fromStrip[N];
166  int nStrip[N];
167 
168  // load not vectorize
169  //In strip coordinates:
170  for (int i=0; i!=N;++i) {
171  auto j = ip+i;
172  if (0==collection_points[j].amplitude()) count.zero();
173  chargePosition[i]=topology.strip(collection_points[j].position());
174  chargeSpread[i]= collection_points[j].sigma() / topology.localPitch(collection_points[j].position());
175  amplitude[i]=0.5f*collection_points[j].amplitude() / geVperElectron;
176  }
177 
178  // this vectorize
179  for (int i=0; i!=N;++i) {
180  fromStrip[i] = std::max( 0, int(std::floor( chargePosition[i] - Nsigma*chargeSpread[i])) );
181  nStrip[i] = std::min( Nstrips, int(std::ceil( chargePosition[i] + Nsigma*chargeSpread[i])) ) - fromStrip[i];
182  }
183  int tot=0;
184  for (int i=0; i!=N;++i) tot += nStrip[i];
185  tot+=N; // add last strip
186  count.val(tot);
187  float value[tot];
188 
189  // assign relative position (lower bound of strip) in value;
190  int kk=0;
191  for (int i=0; i!=N;++i) {
192  auto delta = 1.f/(std::sqrt(2.f)*chargeSpread[i]);
193  auto pos = delta*(float(fromStrip[i])-chargePosition[i]);
194  for (int j=0;j<=nStrip[i]; ++j)
195  value[kk++] = pos+float(j)*delta;
196  }
197  assert(kk==tot);
198 
199  // main loop fully vectorized
200  for (int k=0;k!=tot; ++k)
201  value[k] = approx_erf(value[k]);
202 
203  // saturate 0 & NStrips strip to 0 and 1???
204  kk=0;
205  for (int i=0; i!=N;++i) {
206  if (0 == fromStrip[i]) value[kk]=0;
207  kk+=nStrip[i];
208  if (Nstrips == fromStrip[i]+nStrip[i]) value[kk]=1.f;
209  ++kk;
210  }
211  assert(kk==tot);
212 
213  // compute integral over strip (lower bound becomes the value)
214  for (int k=0;k!=tot-1; ++k)
215  value[k]-=value[k+1]; // this is negative!
216 
217 
218  float charge[Nstrips]; for (int i=0;i!=Nstrips; ++i) charge[i]=0;
219  kk=0;
220  for (int i=0; i!=N;++i){
221  for (int j=0;j!=nStrip[i]; ++j)
222  charge[fromStrip[i]+j]-= amplitude[i]*value[kk++];
223  ++kk; // skip last "strip"
224  }
225  assert(kk==tot);
226 
227 
229  int minA=recordMinAffectedStrip, maxA=recordMaxAffectedStrip;
230  int sc = coupling.size();
231  for (int i=0;i!=Nstrips; ++i) {
232  int strip = i;
233  if (0==charge[i]) continue;
234  auto affectedFromStrip = std::max( 0, strip - sc + 1);
235  auto affectedUntilStrip = std::min(Nstrips, strip + sc);
236  for (auto affectedStrip=affectedFromStrip; affectedStrip < affectedUntilStrip; ++affectedStrip)
237  localAmplitudes[affectedStrip] += charge[i] * coupling[std::abs(affectedStrip - strip)] ;
238 
239  if( affectedFromStrip < minA ) minA = affectedFromStrip;
240  if( affectedUntilStrip > maxA ) maxA = affectedUntilStrip;
241  }
242  recordMinAffectedStrip=minA;
243  recordMaxAffectedStrip=maxA;
244  } // end loop ip
245 
246 }
247 
248 void
251  const StripGeomDetUnit& det,
252  std::vector<float>& localAmplitudes,
253  size_t& recordMinAffectedStrip,
254  size_t& recordMaxAffectedStrip,
255  const TrackerTopology *tTopo) const {
256 
257 
258  auto const & coupling = signalCoupling[typeOf(det,tTopo)];
259  const StripTopology& topology = dynamic_cast<const StripTopology&>(det.specificTopology());
260  size_t Nstrips = topology.nstrips();
261 
262  if (!collection_points.empty()) count.dep(collection_points.size());
263 
264  for (auto signalpoint = collection_points.begin(); signalpoint != collection_points.end(); signalpoint++ ) {
265 
266  //In strip coordinates:
267  double chargePosition = topology.strip(signalpoint->position());
268  double chargeSpread = signalpoint->sigma() / topology.localPitch(signalpoint->position());
269 
270  size_t fromStrip = size_t(std::max( 0, int(std::floor( chargePosition - Nsigma*chargeSpread))));
271  size_t untilStrip = size_t(std::min( Nstrips, size_t(std::ceil( chargePosition + Nsigma*chargeSpread) )));
272 
273  count.str(std::max(0,int(untilStrip)-int(fromStrip)));
274  for (size_t strip = fromStrip; strip < untilStrip; strip++) {
275 
276  double chargeDepositedOnStrip = chargeDeposited( strip, Nstrips, signalpoint->amplitude() / geVperElectron, chargeSpread, chargePosition);
277 
278  size_t affectedFromStrip = size_t(std::max( 0, int(strip - coupling.size() + 1)));
279  size_t affectedUntilStrip = size_t(std::min( Nstrips, strip + coupling.size()) );
280  for (size_t affectedStrip = affectedFromStrip; affectedStrip < affectedUntilStrip; affectedStrip++) {
281  localAmplitudes.at( affectedStrip ) += chargeDepositedOnStrip * coupling.at(abs( affectedStrip - strip )) ;
282  }
283 
284  if( affectedFromStrip < recordMinAffectedStrip ) recordMinAffectedStrip = affectedFromStrip;
285  if( affectedUntilStrip > recordMaxAffectedStrip ) recordMaxAffectedStrip = affectedUntilStrip;
286  }
287  }
288 
289 }
290 
dbl * delta
Definition: mlp_gen.cc:36
type
Definition: HCALResponse.h:21
T getParameter(std::string const &) const
virtual int nstrips() const =0
int i
Definition: DBlmapReader.cc:9
unsigned int tibLayer(const DetId &id) const
unsigned int tidRing(const DetId &id) const
CaloTopology const * topology(0)
unsigned int tecRing(const DetId &id) const
ring id
assert(m_qm.get())
std::vector< SignalPoint > collection_type
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
virtual const StripTopology & specificTopology() const
Returns a reference to the strip proxy topology.
int dzero(double a, double b, double &x0, double &rv, double eps, int mxf, F func)
Private version of the exponential integral.
Definition: VVIObj.cc:570
void induce(const SiChargeCollectionDrifter::collection_type &collection_points, const StripGeomDetUnit &det, std::vector< float > &localAmplitudes, size_t &recordMinAffectedStrip, size_t &recordMaxAffectedStrip, const TrackerTopology *tTopo) const
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Definition: Activities.doc:4
#define constexpr
virtual float strip(const LocalPoint &) const =0
float approx_erf(float x)
Definition: approx_erf.h:6
virtual float localPitch(const LocalPoint &) const =0
virtual StripGeomDetType const & specificType() const
T sqrt(T t)
Definition: SSEVec.h:48
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int j
Definition: DBlmapReader.cc:9
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:77
double f[11][100]
T min(T a, T b)
Definition: MathUtil.h:58
tuple conf
Definition: dbtoconf.py:185
Definition: DetId.h:18
#define N
Definition: blowfish.cc:9
static int position[264][3]
Definition: ReadPGInfo.cc:509
tuple cout
Definition: gather_cfg.py:121
SiTrivialInduceChargeOnStrips(const edm::ParameterSet &conf, double g)
void induceVector(const SiChargeCollectionDrifter::collection_type &collection_points, const StripGeomDetUnit &det, std::vector< float > &localAmplitudes, size_t &recordMinAffectedStrip, size_t &recordMaxAffectedStrip, const TrackerTopology *tTopo) const
SubDetector subDetector() const
Definition: GeomDetType.h:22
unsigned int tobLayer(const DetId &id) const
void induceOriginal(const SiChargeCollectionDrifter::collection_type &collection_points, const StripGeomDetUnit &det, std::vector< float > &localAmplitudes, size_t &recordMinAffectedStrip, size_t &recordMaxAffectedStrip, const TrackerTopology *tTopo) const