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Vx3DHLTAnalyzer.cc File Reference
#include "DQM/BeamMonitor/plugins/Vx3DHLTAnalyzer.h"
#include "FWCore/ServiceRegistry/interface/Service.h"
#include "FWCore/Framework/interface/LuminosityBlock.h"
#include "FWCore/Utilities/interface/isFinite.h"
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/TrackReco/interface/TrackFwd.h"
#include <Math/Minimizer.h>
#include <Math/Factory.h>
#include <Math/Functor.h>

Go to the source code of this file.

Functions

 DEFINE_FWK_MODULE (Vx3DHLTAnalyzer)
 
double Gauss3DFunc (const double *par)
 

Function Documentation

DEFINE_FWK_MODULE ( Vx3DHLTAnalyzer  )
double Gauss3DFunc ( const double *  par)

Definition at line 176 of file Vx3DHLTAnalyzer.cc.

References considerVxCovariance, counterVx, DIM, i, create_public_lumi_plots::log, maxLongLength, maxTransRadius, pi, mathSSE::sqrt(), Vertices, VxErrCorr, x, xPos, detailsBasic3DVector::y, yPos, detailsBasic3DVector::z, and zPos.

Referenced by Vx3DHLTAnalyzer::MyFit().

177 {
178  double K[DIM][DIM]; // Covariance Matrix
179  double M[DIM][DIM]; // K^-1
180  double det;
181  double sumlog = 0.;
182 
183 // par[0] = K(0,0) --> Var[X]
184 // par[1] = K(1,1) --> Var[Y]
185 // par[2] = K(2,2) --> Var[Z]
186 // par[3] = K(0,1) = K(1,0) --> Cov[X,Y]
187 // par[4] = K(1,2) = K(2,1) --> Cov[Y,Z] --> dy/dz
188 // par[5] = K(0,2) = K(2,0) --> Cov[X,Z] --> dx/dz
189 // par[6] = mean x
190 // par[7] = mean y
191 // par[8] = mean z
192 
193  counterVx = 0;
194  for (unsigned int i = 0; i < Vertices.size(); i++)
195  {
197  (std::fabs(Vertices[i].z-zPos) <= maxLongLength))
198  {
199  if (considerVxCovariance == true)
200  {
201  K[0][0] = std::fabs(par[0]) + VxErrCorr*VxErrCorr * std::fabs(Vertices[i].Covariance[0][0]);
202  K[1][1] = std::fabs(par[1]) + VxErrCorr*VxErrCorr * std::fabs(Vertices[i].Covariance[1][1]);
203  K[2][2] = std::fabs(par[2]) + VxErrCorr*VxErrCorr * std::fabs(Vertices[i].Covariance[2][2]);
204  K[0][1] = K[1][0] = par[3] + VxErrCorr*VxErrCorr * Vertices[i].Covariance[0][1];
205  K[1][2] = K[2][1] = par[4]*(std::fabs(par[2])-std::fabs(par[1])) - par[5]*par[3] + VxErrCorr*VxErrCorr * Vertices[i].Covariance[1][2];
206  K[0][2] = K[2][0] = par[5]*(std::fabs(par[2])-std::fabs(par[0])) - par[4]*par[3] + VxErrCorr*VxErrCorr * Vertices[i].Covariance[0][2];
207  }
208  else
209  {
210  K[0][0] = std::fabs(par[0]);
211  K[1][1] = std::fabs(par[1]);
212  K[2][2] = std::fabs(par[2]);
213  K[0][1] = K[1][0] = par[3];
214  K[1][2] = K[2][1] = par[4]*(std::fabs(par[2])-std::fabs(par[1])) - par[5]*par[3];
215  K[0][2] = K[2][0] = par[5]*(std::fabs(par[2])-std::fabs(par[0])) - par[4]*par[3];
216  }
217 
218  det = K[0][0]*(K[1][1]*K[2][2] - K[1][2]*K[1][2]) -
219  K[0][1]*(K[0][1]*K[2][2] - K[0][2]*K[1][2]) +
220  K[0][2]*(K[0][1]*K[1][2] - K[0][2]*K[1][1]);
221 
222  M[0][0] = (K[1][1]*K[2][2] - K[1][2]*K[1][2]) / det;
223  M[1][1] = (K[0][0]*K[2][2] - K[0][2]*K[0][2]) / det;
224  M[2][2] = (K[0][0]*K[1][1] - K[0][1]*K[0][1]) / det;
225  M[0][1] = M[1][0] = (K[0][2]*K[1][2] - K[0][1]*K[2][2]) / det;
226  M[1][2] = M[2][1] = (K[0][2]*K[0][1] - K[1][2]*K[0][0]) / det;
227  M[0][2] = M[2][0] = (K[0][1]*K[1][2] - K[0][2]*K[1][1]) / det;
228 
229  sumlog += double(DIM)*std::log(2.*pi) + std::log(std::fabs(det)) +
230  (M[0][0]*(Vertices[i].x-par[6])*(Vertices[i].x-par[6]) +
231  M[1][1]*(Vertices[i].y-par[7])*(Vertices[i].y-par[7]) +
232  M[2][2]*(Vertices[i].z-par[8])*(Vertices[i].z-par[8]) +
233  2.*M[0][1]*(Vertices[i].x-par[6])*(Vertices[i].y-par[7]) +
234  2.*M[1][2]*(Vertices[i].y-par[7])*(Vertices[i].z-par[8]) +
235  2.*M[0][2]*(Vertices[i].x-par[6])*(Vertices[i].z-par[8]));
236 
237  counterVx++;
238  }
239  }
240 
241  return sumlog;
242 }
int i
Definition: DBlmapReader.cc:9
double maxLongLength
double zPos
float float float z
double maxTransRadius
bool considerVxCovariance
double xPos
T sqrt(T t)
Definition: SSEVec.h:48
double yPos
#define DIM
std::vector< VertexType > Vertices
unsigned int counterVx
double pi
double VxErrCorr
Definition: DDAxes.h:10