File: examples-synapses_STDP1_bis.txt

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.. currentmodule:: brian

.. index::
   pair: example usage; subplot
   pair: example usage; plot
   pair: example usage; run
   pair: example usage; PopulationRateMonitor
   pair: example usage; show
   pair: example usage; rate
   pair: example usage; hist
   pair: example usage; PoissonGroup
   pair: example usage; Synapses
   pair: example usage; NeuronGroup

.. _example-synapses_STDP1_bis:

Example: STDP1_bis (synapses)
=============================

Spike-timing dependent plasticity
Adapted from Song, Miller and Abbott (2000) and Song and Abbott (2001)

This simulation takes a long time!

Original time: 278 s
with DelayConnection: 478 s
New time: 416 s

::

    from brian import *
    from time import time
    
    N = 1000
    taum = 10 * ms
    taupre = 20 * ms
    taupost = taupre
    Ee = 0 * mV
    vt = -54 * mV
    vr = -60 * mV
    El = -74 * mV
    taue = 5 * ms
    F = 15 * Hz
    gmax = .01
    dApre = .01
    dApost = -dApre * taupre / taupost * 1.05
    dApost *= gmax
    dApre *= gmax
    
    eqs_neurons = '''
    dv/dt=(ge*(Ee-vr)+El-v)/taum : volt   # the synaptic current is linearized
    dge/dt=-ge/taue : 1
    '''
    
    input = PoissonGroup(N, rates=F)
    neurons = NeuronGroup(1, model=eqs_neurons, threshold=vt, reset=vr)
    S = Synapses(input, neurons,
                 model='''w:1
                          dApre/dt=-Apre/taupre : 1 (event-driven)
                          dApost/dt=-Apost/taupost : 1 (event-driven)''',
                 pre='''ge+=w
                        Apre+=dApre
                        w=clip(w+Apost,0,gmax)''',
                 post='''Apost+=dApost
                         w=clip(w+Apre,0,gmax)''')
    neurons.v = vr
    S[:,:]=True
    S.w='rand()*gmax'
    
    rate = PopulationRateMonitor(neurons)
    
    start_time = time()
    run(100 * second, report='text')
    print "Simulation time:", time() - start_time
    
    subplot(311)
    plot(rate.times / second, rate.smooth_rate(100 * ms))
    subplot(312)
    plot(S.w[:] / gmax, '.')
    subplot(313)
    hist(S.w[:] / gmax, 20)
    show()