20 double ndep = 0, ndep2 = 0, maxdep = 0;
21 double nstr = 0, nstr2 = 0;
22 double ncv = 0, nval = 0, nval2 = 0, maxv = 0;
42 std::cout <<
"deposits " << ncall <<
" " << maxdep <<
" " << ndep / ncall <<
" "
43 <<
std::sqrt(ndep2 * ncall - ndep * ndep) / ncall << 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;
52 void dep(
double)
const {}
53 void str(
double)
const {}
54 void val(
double)
const {}
63 constexpr
int Ntypes = 14;
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 };
69 inline std::vector<std::vector<float> > fillSignalCoupling(
const edm::ParameterSet& conf,
72 std::vector<std::vector<float> > signalCoupling;
73 signalCoupling.reserve(nTypes);
75 for (
int i = 0;
i < nTypes; ++
i) {
77 if (typeArray[
i].
find(
'W') != std::string::npos &&
mode ==
"Dec")
79 else if (typeArray[
i].
find(
'B') != std::string::npos &&
mode ==
"Dec")
83 signalCoupling.emplace_back(dc.begin(), dc.end());
85 return signalCoupling;
92 return (tTopo->
tibLayer(
id) < 3) ? indexOfIB1 : indexOfIB2;
95 return (tTopo->
tobLayer(
id) > 4) ? indexOfOB1 : indexOfOB2;
98 return indexOfW1a - 1 + tTopo->
tidRing(
id);
101 return indexOfW1b - 1 + tTopo->
tecRing(
id);
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));
115 return 0.5 * (integralUpToNext - integralUpToStrip) *
amplitude;
121 : signalCoupling(fillSignalCoupling(conf, Ntypes,
type)), Nsigma(3.), geVperElectron(
g) {}
125 std::vector<float>& localAmplitudes,
126 size_t& recordMinAffectedStrip,
127 size_t& recordMaxAffectedStrip,
129 induceVector(collection_points, det, localAmplitudes, recordMinAffectedStrip, recordMaxAffectedStrip, tTopo);
168 std::vector<float>& localAmplitudes,
169 size_t& recordMinAffectedStrip,
170 size_t& recordMaxAffectedStrip,
174 const int Nstrips = topology.
nstrips();
179 const int NP = collection_points.size();
183 constexpr
int MaxN = 512;
186 for (
int ip = 0; ip < NP; ip +=
MaxN) {
191 float chargePosition[
N];
192 float chargeSpread[
N];
198 for (
int i = 0;
i !=
N; ++
i) {
203 chargeSpread[
i] = collection_points[
j].sigma() / topology.
localPitch(collection_points[
j].
position());
208 for (
int i = 0;
i !=
N; ++
i) {
209 fromStrip[
i] =
std::max(0,
int(std::floor(chargePosition[
i] -
Nsigma * chargeSpread[
i])));
213 for (
int i = 0;
i !=
N; ++
i)
221 for (
int i = 0;
i !=
N; ++
i) {
227 for (
int j = 0;
j <= nStrip[
i]; ++
j) {
235 for (
int k = 0;
k != tot; ++
k)
240 for (
int i = 0;
i !=
N; ++
i) {
241 if (0 == fromStrip[
i])
244 if (Nstrips == fromStrip[
i] + nStrip[
i])
251 for (
int k = 0;
k != tot - 1; ++
k)
255 for (
int i = 0;
i != Nstrips; ++
i)
258 for (
int i = 0;
i !=
N; ++
i) {
259 for (
int j = 0;
j != nStrip[
i]; ++
j)
266 int minA = recordMinAffectedStrip, maxA = recordMaxAffectedStrip;
267 int sc = coupling.size();
268 for (
int i = 0;
i != Nstrips; ++
i) {
274 for (
auto affectedStrip = affectedFromStrip; affectedStrip < affectedUntilStrip; ++affectedStrip)
277 if (affectedFromStrip < minA)
278 minA = affectedFromStrip;
279 if (affectedUntilStrip > maxA)
280 maxA = affectedUntilStrip;
282 recordMinAffectedStrip = minA;
283 recordMaxAffectedStrip = maxA;
289 std::vector<float>& localAmplitudes,
290 size_t& recordMinAffectedStrip,
291 size_t& recordMaxAffectedStrip,
295 size_t Nstrips = topology.
nstrips();
297 if (!collection_points.empty())
298 count.dep(collection_points.size());
300 for (
auto signalpoint = collection_points.begin(); signalpoint != collection_points.end(); signalpoint++) {
302 double chargePosition = topology.
strip(signalpoint->position());
303 double chargeSpread = signalpoint->sigma() / topology.
localPitch(signalpoint->position());
305 size_t fromStrip = size_t(
std::max(0,
int(std::floor(chargePosition -
Nsigma * chargeSpread))));
310 double chargeDepositedOnStrip =
311 chargeDeposited(
strip, Nstrips, signalpoint->amplitude() /
geVperElectron, chargeSpread, chargePosition);
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));
320 if (affectedFromStrip < recordMinAffectedStrip)
321 recordMinAffectedStrip = affectedFromStrip;
322 if (affectedUntilStrip > recordMaxAffectedStrip)
323 recordMaxAffectedStrip = affectedUntilStrip;