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iSTDP.h
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iSTDP.h
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/*
* stdp_connection.h
*
* This file is part of NEST.
*
* Copyright (C) 2004 The NEST Initiative
*
* NEST is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* NEST is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with NEST. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifndef iSTDP_H
#define iSTDP_H
/* BeginDocumentation
Name: stdp_synapse - Synapse type for spike-timing dependent
plasticity.
Description:
stdp_synapse is a connector to create synapses with spike time
dependent plasticity (as defined in [1]). Here the weight dependence
exponent can be set separately for potentiation and depression.
Examples:
multiplicative STDP [2] mu_plus = mu_minus = 1.0
additive STDP [3] mu_plus = mu_minus = 0.0
Guetig STDP [1] mu_plus = mu_minus = [0.0,1.0]
van Rossum STDP [4] mu_plus = 0.0 mu_minus = 1.0
Parameters:
tau_plus double - Time constant of STDP window, potentiation in ms
(tau_minus defined in post-synaptic neuron)
lambda double - Step size
alpha double - Asymmetry parameter (scales depressing increments as
alpha*lambda)
mu_plus double - Weight dependence exponent, potentiation
mu_minus double - Weight dependence exponent, depression
Wmax double - Maximum allowed weight
Transmits: SpikeEvent
References:
[1] Guetig et al. (2003) Learning Input Correlations through Nonlinear
Temporally Asymmetric Hebbian Plasticity. Journal of Neuroscience
[2] Rubin, J., Lee, D. and Sompolinsky, H. (2001). Equilibrium
properties of temporally asymmetric Hebbian plasticity, PRL
86,364-367
[3] Song, S., Miller, K. D. and Abbott, L. F. (2000). Competitive
Hebbian learning through spike-timing-dependent synaptic
plasticity,Nature Neuroscience 3:9,919--926
[4] van Rossum, M. C. W., Bi, G-Q and Turrigiano, G. G. (2000).
Stable Hebbian learning from spike timing-dependent
plasticity, Journal of Neuroscience, 20:23,8812--8821
FirstVersion: March 2006
Author: Moritz Helias, Abigail Morrison
Adapted by: Philipp Weidel
SeeAlso: synapsedict, tsodyks_synapse, static_synapse
*/
// C++ includes:
#include <cmath>
// Includes from nestkernel:
#include "common_synapse_properties.h"
#include "connection.h"
#include "connector_model.h"
#include "event.h"
// Includes from sli:
#include "dictdatum.h"
#include "dictutils.h"
namespace mynest
{
// connections are templates of target identifier type (used for pointer /
// target index addressing) derived from generic connection template
template < typename targetidentifierT >
class iSTDP : public nest ::Connection< targetidentifierT >
{
public:
typedef nest::CommonSynapseProperties CommonPropertiesType;
typedef nest::Connection< targetidentifierT > ConnectionBase;
/**
* Default Constructor.
* Sets default values for all parameters. Needed by GenericConnectorModel.
*/
iSTDP();
/**
* Copy constructor.
* Needs to be defined properly in order for GenericConnector to work.
*/
iSTDP( const iSTDP& );
// Explicitly declare all methods inherited from the dependent base
// ConnectionBase. This avoids explicit name prefixes in all places these
// functions are used. Since ConnectionBase depends on the template parameter,
// they are not automatically found in the base class.
using ConnectionBase::get_delay_steps;
using ConnectionBase::get_delay;
using ConnectionBase::get_rport;
using ConnectionBase::get_target;
/**
* Get all properties of this connection and put them into a dictionary.
*/
void get_status( DictionaryDatum& d ) const;
/**
* Set properties of this connection from the values given in dictionary.
*/
void set_status( const DictionaryDatum& d, nest::ConnectorModel& cm );
/**
* Send an event to the receiver of this connection.
* \param e The event to send
* \param t_lastspike Point in time of last spike sent.
* \param cp common properties of all synapses (empty).
*/
void send( nest::Event& e,
nest::thread t,
const nest::CommonSynapseProperties& cp );
class ConnTestDummyNode : public nest::ConnTestDummyNodeBase
{
public:
// Ensure proper overriding of overloaded virtual functions.
// Return values from functions are ignored.
using nest::ConnTestDummyNodeBase::handles_test_event;
nest::port
handles_test_event( nest::SpikeEvent&, nest::rport )
{
return nest::invalid_port_;
}
};
void
check_connection( nest::Node& s,
nest::Node& t,
nest::rport receptor_type,
const CommonPropertiesType& )
{
ConnTestDummyNode dummy_target;
ConnectionBase::check_connection_( dummy_target, s, t, receptor_type );
t.register_stdp_connection( t_lastspike_ - get_delay(), get_delay() );
}
void
set_weight( double w )
{
weight_ = w;
}
private:
double
calculate_k_( double dt )
{
double k = Wmax_ * 0.03 *std::exp( - 1.0 * ( std::abs(dt) / tau_plus_)) * (1 + cos(2*(dt)/tau_plus_)) -lambda_ * Wmax_ * 0.03 * mu_plus_ * std::exp( - 1.0 * (std::abs (dt) / mu_minus_)) * (1 - cos(2*(dt)/mu_minus_));
// std::cout << cos(2*(dt)/195.6) << std::endl;
//std::cout << cos(2*(dt)/125) << std::endl;
return k;
}
double
facilitate_( double w, double kplus )
{
double norm_w;
double norm_w1 = 0.5 * kplus;
if ( w >= 0 )
{
norm_w = norm_w1 + w;
}
if ( w < 0 )
{
norm_w = norm_w1 + w;
}
//std::cout << norm_w1<< std::endl;
//std::cout << kplus << std::endl;
return norm_w;
}
// data members of each connection
double weight_;
double tau_plus_;
double lambda_;
double alpha_;
double mu_plus_;
double mu_minus_;
double Wmax_;
double Kplus_;
double Wmin_;
double t_lastspike_;
};
/**
* Send an event to the receiver of this connection.
* \param e The event to send
* \param t The thread on which this connection is stored.
* \param t_lastspike_ Time point of last spike emitted
* \param cp Common properties object, containing the stdp parameters.
*/
template < typename targetidentifierT >
inline void
iSTDP< targetidentifierT >::send( nest::Event& e,
nest::thread t,
const nest::CommonSynapseProperties& )
{
// synapse STDP depressing/facilitation dynamics
double t_spike = e.get_stamp().get_ms();
// use accessor functions (inherited from Connection< >) to obtain delay and
// target
nest::Node* target = get_target( t );
double dendritic_delay = get_delay();
// get spike history in relevant range (t1, t2] from post-synaptic neuron
std::deque< nest::histentry >::iterator start;
std::deque< nest::histentry >::iterator finish;
// For a new synapse, t_lastspike_ contains the point in time of the last
// spike. So we initially read the
// history(t_last_spike - dendritic_delay, ..., T_spike-dendritic_delay]
// which increases the access counter for these entries.
// At registration, all entries' access counters of
// history[0, ..., t_last_spike - dendritic_delay] have been
// incremented by Archiving_Node::register_stdp_connection(). See bug #218 for
// details.
target->get_history(
t_lastspike_ - dendritic_delay, t_spike - dendritic_delay, &start, &finish );
// facilitation due to post-synaptic spikes since last pre-synaptic spike
double dtp_;
double dtn_;
while ( start != finish )
{
//std::cout << start->t_ << "\t"<< t_lastspike_ << "\t" << t_spike << std::endl;
dtp_ = t_spike - ( start -> t_ );
Kplus_ = calculate_k_( dtp_ );
// std::cout << Kplus_ << std::endl;
weight_ = facilitate_( weight_, Kplus_ );
if( t_lastspike_ > 0 )
{
dtn_ = ( start -> t_ ) - t_lastspike_;
Kplus_ = calculate_k_( dtn_ );
// std::cout << start ->t_<< std::endl;
weight_ = facilitate_( weight_, Kplus_ );
}
++start;
}
e.set_receiver( *target );
if ( weight_ < Wmin_ )
{
weight_ = Wmin_;
}
if ( weight_ > Wmax_ )
{
weight_ = Wmax_;
}
e.set_weight( weight_ );
// use accessor functions (inherited from Connection< >) to obtain delay in
// steps and rport
e.set_delay_steps( get_delay_steps() );
e.set_rport( get_rport() );
e();
t_lastspike_ = t_spike;
}
template < typename targetidentifierT >
iSTDP< targetidentifierT >::iSTDP()
: ConnectionBase()
, weight_( 1.0 )
, tau_plus_( 125.0 )
, lambda_( 0.01 )
, alpha_( 1.0 )
, mu_plus_( 1.0 )
, mu_minus_( 1.0 )
, Wmax_( 100.0 )
, Kplus_( 0.0 )
, Wmin_(-100.0)
, t_lastspike_( 0.0 )
{
}
template < typename targetidentifierT >
iSTDP< targetidentifierT >::iSTDP(
const iSTDP< targetidentifierT >& rhs )
: ConnectionBase( rhs )
, weight_( rhs.weight_ )
, tau_plus_( rhs.tau_plus_ )
, lambda_( rhs.lambda_ )
, alpha_( rhs.alpha_ )
, mu_plus_( rhs.mu_plus_ )
, mu_minus_( rhs.mu_minus_ )
, Wmax_( rhs.Wmax_ )
, Kplus_( rhs.Kplus_ )
, Wmin_( rhs.Wmin_ )
, t_lastspike_( rhs.t_lastspike_ )
{
}
template < typename targetidentifierT >
void
iSTDP< targetidentifierT >::get_status( DictionaryDatum& d ) const
{
ConnectionBase::get_status( d );
def< double >( d, nest::names::weight, weight_ );
def< double >( d, nest::names::tau_plus, tau_plus_ );
def< double >( d, nest::names::lambda, lambda_ );
def< double >( d, nest::names::alpha, alpha_ );
def< double >( d, nest::names::mu_plus, mu_plus_ );
def< double >( d, nest::names::mu_minus, mu_minus_ );
def< double >( d, nest::names::Wmax, Wmax_ );
def< double >( d, nest::names::Wmin, Wmin_ );
def< long >( d, nest::names::size_of, sizeof( *this ) );
}
template < typename targetidentifierT >
void
iSTDP< targetidentifierT >::set_status( const DictionaryDatum& d,
nest::ConnectorModel& cm )
{
ConnectionBase::set_status( d, cm );
updateValue< double >( d, nest::names::weight, weight_ );
updateValue< double >( d, nest::names::tau_plus, tau_plus_ );
updateValue< double >( d, nest::names::lambda, lambda_ );
updateValue< double >( d, nest::names::alpha, alpha_ );
updateValue< double >( d, nest::names::mu_plus, mu_plus_ );
updateValue< double >( d, nest::names::mu_minus, mu_minus_ );
updateValue< double >( d, nest::names::Wmax, Wmax_ );
updateValue< double >( d, nest::names::Wmin, Wmin_ );
// check if weight_ and Wmax_ has the same sign
if ( not( ( ( weight_ >= 0 ) - ( weight_ < 0 ) )
== ( ( Wmax_ >= 0 ) - ( Wmax_ < 0 ) ) ) )
{
throw nest::BadProperty( "Weight and Wmax must have same sign." );
}
}
} // of namespace nest
#endif // of #ifndef iSTDP_H