root/html608/SimulatedAnnealingFitter_8cxx_source.html

 // @(#)root/tmva $Id$
 // Author: Andraes Hoecker, Kamil Kraszewski, Maciej Kruk

 /**********************************************************************************
  * Project: TMVA - a Root-integrated toolkit for multivariate data analysis       *
  * Package: TMVA                                                                  *
  * Class  : SimulatedAnnealingFitter                                              *
  * Web    : http://tmva.sourceforge.net                                           *
  *                                                                                *
  * Description:                                                                   *
  *      Implementation                                                            *
  *                                                                                *
  * Authors (alphabetical):                                                        *
  *      Krzysztof Danielowski <danielow@cern.ch>       - IFJ & AGH, Poland        *
  *      Andreas Hoecker       <Andreas.Hocker@cern.ch> - CERN, Switzerland        *
  *      Kamil Kraszewski      <kalq@cern.ch>           - IFJ & UJ, Poland         *
  *      Maciej Kruk           <mkruk@cern.ch>          - IFJ & AGH, Poland        *
  *                                                                                *
  * Copyright (c) 2008:                                                            *
  *      IFJ-Krakow, Poland                                                        *
  *      CERN, Switzerland                                                         *
  *      MPI-K Heidelberg, Germany                                                 *
  *                                                                                *
  * Redistribution and use in source and binary forms, with or without             *
  * modification, are permitted according to the terms listed in LICENSE           *
  * (http://tmva.sourceforge.net/LICENSE)                                          *
  **********************************************************************************/

 //_______________________________________________________________________
 //
 // Fitter using a Simulated Annealing Algorithm
 //_______________________________________________________________________

 #include "TMVA/SimulatedAnnealingFitter.h"

 #include "TMVA/Configurable.h"
 #include "TMVA/FitterBase.h"
 #include "TMVA/Interval.h"
 #include "TMVA/MsgLogger.h"
 #include "TMVA/SimulatedAnnealing.h"
 #include "TMVA/Types.h"

 #include "Rtypes.h"
 #include "TString.h"

 ClassImp(TMVA::SimulatedAnnealingFitter)

 ////////////////////////////////////////////////////////////////////////////////
 /// constructor

 TMVA::SimulatedAnnealingFitter::SimulatedAnnealingFitter( IFitterTarget& target,
                                                           const TString& name,
                                                           const std::vector<Interval*>& ranges,
                                                           const TString& theOption )
 : TMVA::FitterBase( target, name, ranges, theOption )
 {
    // default parameters settings for Simulated Annealing algorithm
    DeclareOptions();
    ParseOptions();
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// declare SA options

 void TMVA::SimulatedAnnealingFitter::DeclareOptions()
 {
    // MaxCalls                 <int>      maximum number of calls for simulated annealing
    // TemperatureGradient      <float>    temperature gradient for simulated annealing
    // UseAdaptiveTemperature   <bool>     use of adaptive temperature for simulated annealing
    // InitialTemperature       <float>    initial temperature for simulated annealing
    // MinTemperature           <float>    minimum temperature for simulated annealing
    // Eps                      <int>      number of epochs for simulated annealing
    // NFunLoops                <int>      number of loops for simulated annealing
    // NEps                     <int>      number of epochs for simulated annealing

    // default settings
    fMaxCalls                = 100000;
    fInitialTemperature      = 1e+6;
    fMinTemperature          = 1e-6;
    fEps                     = 1e-10;
    fTemperatureScale        = 1.0;
    fAdaptiveSpeed           = 1.0;
    fTemperatureAdaptiveStep = 0.009875;
    fKernelTemperatureS      = "IncAdaptive";
    fUseDefaultScale         = kFALSE;
    fUseDefaultTemperature   = kFALSE;

    DeclareOptionRef(fMaxCalls,               "MaxCalls",              "Maximum number of minimisation calls");
    DeclareOptionRef(fInitialTemperature,     "InitialTemp",           "Initial temperature");
    DeclareOptionRef(fMinTemperature,         "MinTemp",               "Mimimum temperature");
    DeclareOptionRef(fEps,                    "Eps",                   "Epsilon");
    DeclareOptionRef(fTemperatureScale,       "TempScale",             "Temperature scale");
    DeclareOptionRef(fAdaptiveSpeed,          "AdaptiveSpeed",         "Adaptive speed");
    DeclareOptionRef(fTemperatureAdaptiveStep,"TempAdaptiveStep",      "Step made in each generation temperature adaptive");
    DeclareOptionRef(fUseDefaultScale,        "UseDefaultScale",       "Use default temperature scale for temperature minimisation algorithm");
    DeclareOptionRef(fUseDefaultTemperature,  "UseDefaultTemp",        "Use default initial temperature");

    DeclareOptionRef(fKernelTemperatureS,     "KernelTemp",            "Temperature minimisation algorithm");
    AddPreDefVal(TString("IncAdaptive"));
    AddPreDefVal(TString("DecAdaptive"));
    AddPreDefVal(TString("Sqrt"));
    AddPreDefVal(TString("Log"));
    AddPreDefVal(TString("Sin"));
    AddPreDefVal(TString("Homo"));
    AddPreDefVal(TString("Geo"));
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// set SA configuration parameters

 void TMVA::SimulatedAnnealingFitter::SetParameters( Int_t    maxCalls,
                                                     Double_t initialTemperature,
                                                     Double_t minTemperature,
                                                     Double_t eps,
                                                     TString  kernelTemperatureS,
                                                     Double_t temperatureScale,
                                                     Double_t temperatureAdaptiveStep,
                                                     Bool_t   useDefaultScale,
                                                     Bool_t   useDefaultTemperature)
 {
    fMaxCalls                 = maxCalls;
    fInitialTemperature       = initialTemperature;
    fMinTemperature           = minTemperature;
    fEps                      = eps;
    fKernelTemperatureS       = kernelTemperatureS;
    fTemperatureScale         = temperatureScale;
    fTemperatureAdaptiveStep = temperatureAdaptiveStep;
    fUseDefaultScale          = useDefaultScale;
    fUseDefaultTemperature    = useDefaultTemperature;
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Execute fitting

 Double_t TMVA::SimulatedAnnealingFitter::Run( std::vector<Double_t>& pars )
 {
    Log() << kHEADER << "<SimulatedAnnealingFitter> Optimisation, please be patient ... " << Endl;
    Log() << kINFO << "(progress timing may be inaccurate for SA)" << Endl;

    SimulatedAnnealing sa( GetFitterTarget(), fRanges );

    // set driving parameters
    sa.SetOptions( fMaxCalls, fInitialTemperature, fMinTemperature, fEps, fKernelTemperatureS,
                   fTemperatureScale, fAdaptiveSpeed, fTemperatureAdaptiveStep,
                   fUseDefaultScale, fUseDefaultTemperature );

   if (fIPyMaxIter){
      *fIPyMaxIter = fMaxCalls;
      sa.SetIPythonInteractive(fExitFromTraining, fIPyCurrentIter);
    }
    // minimise
    Double_t fcn = sa.Minimize( pars );

    return fcn;
 }
TMVA::FitterBase::fRanges
const std::vector< TMVA::Interval * > fRanges
Definition: FitterBase.h:91

TMVA::FitterBase::fIPyCurrentIter
UInt_t * fIPyCurrentIter
Definition: FitterBase.h:100

TMVA::SimulatedAnnealingFitter::fMaxCalls
Int_t fMaxCalls
Definition: SimulatedAnnealingFitter.h:74

TMVA::Endl
MsgLogger & Endl(MsgLogger &ml)
Definition: MsgLogger.h:162

Types.h

TMVA::FitterBase
Definition: FitterBase.h:57

SimulatedAnnealingFitter.h

Rtypes.h

TMVA::Configurable::DeclareOptionRef
OptionBase * DeclareOptionRef(T &ref, const TString &name, const TString &desc="")

TMVA::FitterBase::Log
MsgLogger & Log() const
Definition: FitterBase.h:95

TMVA::SimulatedAnnealingFitter::DeclareOptions
void DeclareOptions()
declare SA options
Definition: SimulatedAnnealingFitter.cxx:65

TMVA::FitterBase::fExitFromTraining
bool * fExitFromTraining
Definition: FitterBase.h:101

TString
Basic string class.
Definition: TString.h:137

Int_t
int Int_t
Definition: RtypesCore.h:41

Bool_t
bool Bool_t
Definition: RtypesCore.h:59

kFALSE
const Bool_t kFALSE
Definition: Rtypes.h:92

TMVA::FitterBase::fIPyMaxIter
UInt_t * fIPyMaxIter
Definition: FitterBase.h:100

std
STL namespace.

TMVA::FitterBase::Run
Double_t Run()
estimator function interface for fitting
Definition: FitterBase.cxx:80

TMVA::kHEADER
Definition: Types.h:69

FitterBase.h

TString.h

TMVA::SimulatedAnnealing::SetOptions
void SetOptions(Int_t maxCalls, Double_t initialTemperature, Double_t minTemperature, Double_t eps, TString kernelTemperatureS, Double_t temperatureScale, Double_t adaptiveSpeed, Double_t temperatureAdaptiveStep, Bool_t useDefaultScale, Bool_t useDefaultTemperature)
option setter
Definition: SimulatedAnnealing.cxx:73

TMVA::FitterBase::GetFitterTarget
IFitterTarget & GetFitterTarget() const
Definition: FitterBase.h:70

TMVA::SimulatedAnnealingFitter::SetParameters
void SetParameters(Int_t fMaxCalls, Double_t fInitialTemperature, Double_t fMinTemperature, Double_t fEps, TString fKernelTemperatureS, Double_t fTemperatureScale, Double_t fTemperatureAdaptiveStep, Bool_t fUseDefaultScale, Bool_t fUseDefaultTemperature)
set SA configuration parameters
Definition: SimulatedAnnealingFitter.cxx:111

TMVA::Interval
Definition: Interval.h:63

TMVA::SimulatedAnnealingFitter::fAdaptiveSpeed
Double_t fAdaptiveSpeed
Definition: SimulatedAnnealingFitter.h:80

TMVA::SimulatedAnnealingFitter::fTemperatureScale
Double_t fTemperatureScale
Definition: SimulatedAnnealingFitter.h:79

TMVA::SimulatedAnnealingFitter::fMinTemperature
Double_t fMinTemperature
Definition: SimulatedAnnealingFitter.h:76

SimulatedAnnealing.h

MsgLogger.h

TMVA::SimulatedAnnealing
Definition: SimulatedAnnealing.h:54

TMVA::SimulatedAnnealingFitter::fUseDefaultTemperature
Bool_t fUseDefaultTemperature
Definition: SimulatedAnnealingFitter.h:85

ClassImp
#define ClassImp(name)
Definition: Rtypes.h:279

Double_t
double Double_t
Definition: RtypesCore.h:55

TMVA::SimulatedAnnealingFitter::fEps
Double_t fEps
Definition: SimulatedAnnealingFitter.h:77

e
you should not use this method at all Int_t Int_t Double_t Double_t Double_t e
Definition: TRolke.cxx:630

TMVA::SimulatedAnnealingFitter::fKernelTemperatureS
TString fKernelTemperatureS
Definition: SimulatedAnnealingFitter.h:78

TMVA::Configurable::AddPreDefVal
void AddPreDefVal(const T &)
Definition: Configurable.h:174

TMVA::SimulatedAnnealing::SetIPythonInteractive
void SetIPythonInteractive(bool *ExitFromTraining, UInt_t *fIPyCurrentIter_)
Definition: SimulatedAnnealing.h:77

TMVA::SimulatedAnnealingFitter::fInitialTemperature
Double_t fInitialTemperature
Definition: SimulatedAnnealingFitter.h:75

TMVA
Abstract ClassifierFactory template that handles arbitrary types.
Definition: GeneticMinimizer.h:21

TMVA::SimulatedAnnealing::Minimize
Double_t Minimize(std::vector< Double_t > &parameters)
minimisation algorithm
Definition: SimulatedAnnealing.cxx:311

TMVA::SimulatedAnnealingFitter::fTemperatureAdaptiveStep
Double_t fTemperatureAdaptiveStep
Definition: SimulatedAnnealingFitter.h:83

Interval.h

Configurable.h

TMVA::IFitterTarget
Definition: IFitterTarget.h:46

TMVA::kINFO
Definition: Types.h:64

name
char name[80]
Definition: TGX11.cxx:109

TMVA::SimulatedAnnealingFitter
Definition: SimulatedAnnealingFitter.h:49

TMVA::SimulatedAnnealingFitter::fUseDefaultScale
Bool_t fUseDefaultScale
Definition: SimulatedAnnealingFitter.h:84