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Classes | Public Member Functions | Private Attributes

DeterministicAnnealing Class Reference

#include <DeterministicAnnealing.h>

Inheritance diagram for DeterministicAnnealing:
AnnealingSchedule

List of all members.

Classes

class  A

Public Member Functions

void anneal ()
DeterministicAnnealingclone () const
double currentTemp () const
double cutoff () const
void debug () const
 DeterministicAnnealing (const std::vector< float > &sched, float cutoff=3.0)
 DeterministicAnnealing (float cutoff=3.0)
double initialTemp () const
bool isAnnealed () const
double phi (double chi2) const
void resetAnnealing ()
double weight (double chi2) const

Private Attributes

double theChi2cut
unsigned int theIndex
bool theIsAnnealed

Detailed Description

Definition at line 7 of file DeterministicAnnealing.h.


Constructor & Destructor Documentation

DeterministicAnnealing::DeterministicAnnealing ( float  cutoff = 3.0)

Definition at line 13 of file DeterministicAnnealing.cc.

Referenced by clone().

                                                              :
  theIndex(0), theChi2cut ( cutoff*cutoff ), theIsAnnealed ( false )
{
  temperatures.push_back(256);
  temperatures.push_back(64);
  temperatures.push_back(16);
  temperatures.push_back(4);
  temperatures.push_back(2);
  temperatures.push_back(1);
}
DeterministicAnnealing::DeterministicAnnealing ( const std::vector< float > &  sched,
float  cutoff = 3.0 
)

Member Function Documentation

void DeterministicAnnealing::anneal ( ) [virtual]

Implements AnnealingSchedule.

Definition at line 30 of file DeterministicAnnealing.cc.

References theIndex, and theIsAnnealed.

{
  if ( theIndex < ( temperatures.size() - 1 ) )
  {
    theIndex++; 
  } else {
    theIsAnnealed = true;
  };
}
DeterministicAnnealing* DeterministicAnnealing::clone ( void  ) const [inline, virtual]

Implements AnnealingSchedule.

Definition at line 51 of file DeterministicAnnealing.h.

References DeterministicAnnealing().

  {
    return new DeterministicAnnealing ( * this );
  };
double DeterministicAnnealing::currentTemp ( ) const [virtual]

Implements AnnealingSchedule.

Definition at line 73 of file DeterministicAnnealing.cc.

References theIndex.

{
  return temperatures[theIndex];
}
double DeterministicAnnealing::cutoff ( ) const [virtual]

Returns phi(chi2) / ( phi(cutoff^2) + sum_i { phi(chi2s[i]) } )

Implements AnnealingSchedule.

Definition at line 68 of file DeterministicAnnealing.cc.

References mathSSE::sqrt(), and theChi2cut.

{
  return sqrt(theChi2cut);
}
void DeterministicAnnealing::debug ( ) const [virtual]

Implements AnnealingSchedule.

Definition at line 88 of file DeterministicAnnealing.cc.

References gather_cfg::cout, and i.

{
  cout << "[DeterministicAnnealing] schedule=";
  for ( vector< float >::const_iterator i=temperatures.begin(); 
        i!=temperatures.end() ; ++i )
  {
    cout << *i << " ";
  };
  cout << endl;
}
double DeterministicAnnealing::initialTemp ( ) const [virtual]

Implements AnnealingSchedule.

Definition at line 78 of file DeterministicAnnealing.cc.

{
  return temperatures[0];
}
bool DeterministicAnnealing::isAnnealed ( ) const [virtual]

is it annealed yet?

Implements AnnealingSchedule.

Definition at line 83 of file DeterministicAnnealing.cc.

References theIsAnnealed.

{
  return theIsAnnealed;
}
double DeterministicAnnealing::phi ( double  chi2) const [inline, virtual]

phi ( chi2 ) = e^( -.5*chi2 / T )

Implements AnnealingSchedule.

Definition at line 63 of file DeterministicAnnealing.cc.

References create_public_lumi_plots::exp, and theIndex.

Referenced by weight().

{
  return exp ( -.5 * chi2 / temperatures[theIndex] );
}
void DeterministicAnnealing::resetAnnealing ( ) [virtual]

Implements AnnealingSchedule.

Definition at line 57 of file DeterministicAnnealing.cc.

References theIndex, and theIsAnnealed.

{
  theIndex=0;
  theIsAnnealed = false;
}
double DeterministicAnnealing::weight ( double  chi2) const [virtual]

Returns phi(chi2) / ( phi(cutoff^2) + phi(chi2) ),

Implements AnnealingSchedule.

Definition at line 40 of file DeterministicAnnealing.cc.

References phi(), and theChi2cut.

{
  long double mphi = phi ( chi2 );
  /*
  if ( mphi < std::numeric_limits<double>::epsilon() ) return 0.;
  return 1. / ( 1. + phi ( theChi2cut * theChi2cut ) / mphi );
  */
  // return mphi / ( mphi + phi ( theChi2cut ) );
  long double newtmp = mphi / ( mphi + phi ( theChi2cut ) );
  if ( std::isinf(newtmp ) )
  {
    if ( chi2 < theChi2cut ) newtmp=1.;
    else newtmp=0.;
  }
  return newtmp;
}

Member Data Documentation

Definition at line 58 of file DeterministicAnnealing.h.

Referenced by cutoff(), and weight().

unsigned int DeterministicAnnealing::theIndex [private]

Definition at line 54 of file DeterministicAnnealing.h.

Referenced by anneal(), currentTemp(), phi(), and resetAnnealing().

Definition at line 59 of file DeterministicAnnealing.h.

Referenced by anneal(), isAnnealed(), and resetAnnealing().