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Public Member Functions | Private Attributes

reweight::PoissonMeanShifter Class Reference

#include <LumiReWeighting.h>

List of all members.

Public Member Functions

 PoissonMeanShifter ()
 PoissonMeanShifter (float Shift)
 PoissonMeanShifter ()
 PoissonMeanShifter (float Shift)
double ShiftWeight (float pvnum)
double ShiftWeight (float pvnum)
double ShiftWeight (int ibin)
double ShiftWeight (int ibin)

Private Attributes

double Pweight_ [25]

Detailed Description

Definition at line 31 of file LumiReWeighting.h.


Constructor & Destructor Documentation

reweight::PoissonMeanShifter::PoissonMeanShifter ( ) [inline]

Definition at line 35 of file LumiReWeighting.h.

{ };
reweight::PoissonMeanShifter::PoissonMeanShifter ( float  Shift) [inline]

Definition at line 37 of file LumiReWeighting.h.

References funct::exp(), and Pweight_.

                                     {

      // these are the polynomial or exponential coefficients for each bin of a 25-bin sequence that
      // convert the Distribution of the 2011 luminosity to something with a lower or higher peak luminosity.
      // The distributions aren't quite poisson because they model luminosity decreasing during a fill. This implies that
      // they do get wider as the mean increases, so the weights are not linear with increasing mean.

      static double p0_minus[20] = { 1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1. };
      static double p1_minus[20] = {
        -0.677786,
        -0.619614,
        -0.49465,
        -0.357963,
        -0.238359,
        -0.110002,
        0.0348629,
        0.191263,
        0.347648,
        0.516615,
        0.679646,
        0.836673,
        0.97764,
        1.135,
        1.29922,
        1.42467,
        1.55901,
        1.61762,
        1.67275,
        1.96008
      };
      static double p2_minus[20] = {
        0.526164,
        0.251816,
        0.11049,
        0.026917,
        -0.0464692,
        -0.087022,
        -0.0931581,
        -0.0714295,
        -0.0331772,
        0.0347473,
        0.108658,
        0.193048,
        0.272314,
        0.376357,
        0.4964,
        0.58854,
        0.684959,
        0.731063,
        0.760044,
        1.02386
      };

      static double p1_expoM[5] = {
        1.63363e-03,
        6.79290e-04,
        3.69900e-04,
        2.24349e-04,
        9.87156e-06
      };

      static double p2_expoM[5] = {
        2.64692,
        3.26585,
        3.53229,
        4.18035,
        5.64027
      };


      static double p0_plus[20] = { 1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1. };
      static double p1_plus[20] = {
        -0.739059,
        -0.594445,
        -0.477276,
        -0.359707,
        -0.233573,
        -0.103458,
        0.0373401,
        0.176571,
        0.337617,
        0.499074,
        0.675126,
        0.840522,
        1.00917,
        1.15847,
        1.23816,
        1.44271,
        1.52982,
        1.46385,
        1.5802,
        0.988689
      };
      static double p2_plus[20] = {
        0.208068,
        0.130033,
        0.0850356,
        0.0448344,
        0.000749832,
        -0.0331347,
        -0.0653281,
        -0.0746009,
        -0.0800667,
        -0.0527636,
        -0.00402649,
        0.103338,
        0.261261,
        0.491084,
        0.857966,
        1.19495,
        1.75071,
        2.65559,
        3.35433,
        5.48835
      };

      static double p1_expoP[5] = {
        1.42463e-01,
        4.18966e-02,
        1.12697e-01,
        1.66197e-01,
        1.50768e-01
      };

      static double p2_expoP[5] = {
        1.98758,
        2.27217,
        2.26799,
        2.38455,
        2.52428
      };

      // initialize weights based on desired Shift



      for (int ibin=0;ibin<20;ibin++) {

        if( Shift < .0) {
          Pweight_[ibin] = p0_minus[ibin] + p1_minus[ibin]*Shift + p2_minus[ibin]*Shift*Shift;
        }
        else {
          Pweight_[ibin] = p0_plus[ibin] + p1_plus[ibin]*Shift + p2_plus[ibin]*Shift*Shift;
        }
      }

      // last few bins fit better to an exponential...

      for (int ibin=20;ibin<25;ibin++) {
        if( Shift < 0.) {
          Pweight_[ibin] = p1_expoM[ibin-20]*exp(p2_expoM[ibin-20]*Shift);
        }
        else {
          Pweight_[ibin] = p1_expoP[ibin-20]*exp(p2_expoP[ibin-20]*Shift);
        }
      } 

    };
reweight::PoissonMeanShifter::PoissonMeanShifter ( ) [inline]

Definition at line 43 of file LumiReweightingStandAlone.h.

{ };
reweight::PoissonMeanShifter::PoissonMeanShifter ( float  Shift) [inline]

Definition at line 45 of file LumiReweightingStandAlone.h.

References funct::exp(), and Pweight_.

                                     {

      // these are the polynomial or exponential coefficients for each bin of a 25-bin sequence that
      // convert the Distribution of the 2011 luminosity to something with a lower or higher peak luminosity.
      // The distributions aren't quite poisson because they model luminosity decreasing during a fill. This implies that
      // they do get wider as the mean increases, so the weights are not linear with increasing mean.

      static double p0_minus[20] = { 1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1. };
      static double p1_minus[20] = {
        -0.677786,
        -0.619614,
        -0.49465,
        -0.357963,
        -0.238359,
        -0.110002,
        0.0348629,
        0.191263,
        0.347648,
        0.516615,
        0.679646,
        0.836673,
        0.97764,
        1.135,
        1.29922,
        1.42467,
        1.55901,
        1.61762,
        1.67275,
        1.96008
      };
      static double p2_minus[20] = {
        0.526164,
        0.251816,
        0.11049,
        0.026917,
        -0.0464692,
        -0.087022,
        -0.0931581,
        -0.0714295,
        -0.0331772,
        0.0347473,
        0.108658,
        0.193048,
        0.272314,
        0.376357,
        0.4964,
        0.58854,
        0.684959,
        0.731063,
        0.760044,
        1.02386
      };

      static double p1_expoM[5] = {
        1.63363e-03,
        6.79290e-04,
        3.69900e-04,
        2.24349e-04,
        9.87156e-06
      };

      static double p2_expoM[5] = {
        2.64692,
        3.26585,
        3.53229,
        4.18035,
        5.64027
      };


      static double p0_plus[20] = { 1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1.,1. };
      static double p1_plus[20] = {
        -0.739059,
        -0.594445,
        -0.477276,
        -0.359707,
        -0.233573,
        -0.103458,
        0.0373401,
        0.176571,
        0.337617,
        0.499074,
        0.675126,
        0.840522,
        1.00917,
        1.15847,
        1.23816,
        1.44271,
        1.52982,
        1.46385,
        1.5802,
        0.988689
      };
      static double p2_plus[20] = {
        0.208068,
        0.130033,
        0.0850356,
        0.0448344,
        0.000749832,
        -0.0331347,
        -0.0653281,
        -0.0746009,
        -0.0800667,
        -0.0527636,
        -0.00402649,
        0.103338,
        0.261261,
        0.491084,
        0.857966,
        1.19495,
        1.75071,
        2.65559,
        3.35433,
        5.48835
      };

      static double p1_expoP[5] = {
        1.42463e-01,
        4.18966e-02,
        1.12697e-01,
        1.66197e-01,
        1.50768e-01
      };

      static double p2_expoP[5] = {
        1.98758,
        2.27217,
        2.26799,
        2.38455,
        2.52428
      };

      // initialize weights based on desired Shift



      for (int ibin=0;ibin<20;ibin++) {

        if( Shift < .0) {
          Pweight_[ibin] = p0_minus[ibin] + p1_minus[ibin]*Shift + p2_minus[ibin]*Shift*Shift;
        }
        else {
          Pweight_[ibin] = p0_plus[ibin] + p1_plus[ibin]*Shift + p2_plus[ibin]*Shift*Shift;
        }
      }

      // last few bins fit better to an exponential...

      for (int ibin=20;ibin<25;ibin++) {
        if( Shift < 0.) {
          Pweight_[ibin] = p1_expoM[ibin-20]*exp(p2_expoM[ibin-20]*Shift);
        }
        else {
          Pweight_[ibin] = p1_expoP[ibin-20]*exp(p2_expoP[ibin-20]*Shift);
        }
      } 

    };

Member Function Documentation

double reweight::PoissonMeanShifter::ShiftWeight ( int  ibin) [inline]

Definition at line 196 of file LumiReWeighting.h.

References Pweight_.

                                   {

      if(ibin<25 && ibin>=0) { return Pweight_[ibin]; }
      else { return 0;}

    };
double reweight::PoissonMeanShifter::ShiftWeight ( float  pvnum) [inline]

Definition at line 211 of file LumiReweightingStandAlone.h.

References Pweight_.

                                      {

      int ibin = int(pvnum);

      if(ibin<25 && ibin>=0) { return Pweight_[ibin]; }
      else { return 0;}

    };
double reweight::PoissonMeanShifter::ShiftWeight ( int  ibin) [inline]

Definition at line 204 of file LumiReweightingStandAlone.h.

References Pweight_.

                                   {

      if(ibin<25 && ibin>=0) { return Pweight_[ibin]; }
      else { return 0;}

    };
double reweight::PoissonMeanShifter::ShiftWeight ( float  pvnum) [inline]

Definition at line 203 of file LumiReWeighting.h.

References Pweight_.

                                      {

      int ibin = int(pvnum);

      if(ibin<25 && ibin>=0) { return Pweight_[ibin]; }
      else { return 0;}

    };

Member Data Documentation

Definition at line 210 of file LumiReWeighting.h.

Referenced by PoissonMeanShifter(), and ShiftWeight().