Ejemplo n.º 1
0
    machines.extend(local_machines)
    
    for m in local_machines:
        Process(target=open_server, args=(m[1],1,0)).start()
    
    equations = Equations('''
        dV/dt=(R*I-V)/tau : 1
        I : 1
        R : 1
        tau : second
    ''')
    input = loadtxt('current.txt')
    spikes = loadtxt('spikes.txt')
    results = modelfitting( model = equations,
                            reset = 0,
                            threshold = 1,
                            data = spikes,
                            input = input,
                            dt = .1*ms,
                            popsize = 1000,
                            maxiter = 5,
                            delta = 4*ms,
                            unit_type = 'CPU',
                            machines = machines,
                            R = [1.0e9, 9.0e9],
                            tau = [10*ms, 40*ms],
                            refractory = [0*ms, 10*ms])
    print_table(results)


    close_servers(local_machines)
Ejemplo n.º 2
0
'''
Model fitting example.
Fit an integrate-and-fire model to an in-vitro electrophysiological 
recording during one second.
'''
from brian import loadtxt, ms, Equations
from brian.library.modelfitting import *

if __name__ == '__main__':
    equations = Equations('''
        dV/dt=(R*I-V)/tau : 1
        I : 1
        R : 1
        tau : second
    ''')
    input = loadtxt('current.txt')
    spikes = loadtxt('spikes.txt')
    results = modelfitting(model=equations,
                           reset=0,
                           threshold=1,
                           data=spikes,
                           input=input,
                           dt=.1 * ms,
                           popsize=1000,
                           maxiter=3,
                           delta=4 * ms,
                           R=[1.0e9, 9.0e9],
                           tau=[10 * ms, 40 * ms],
                           refractory=[0 * ms, 10 * ms])
    print_table(results)
Ejemplo n.º 3
0
        G.tau = 20*ms
        M = SpikeMonitor(G)
        G.I = TimedArray(input)
        run(duration)
        i, t = zip(*M.spikes)
        clear(True)
        reinit_default_clock()
        return t
    
    spikes0 = getspikes()
    spikes = []
    for i in xrange(1):
        spikes.extend([(i, spike + 5*i*ms) for spike in spikes0])

    results = modelfitting( model = model,
                            reset = 0,
                            threshold = 1,
                            data = spikes,
                            input = input,
                            dt = .1*ms,
                            popsize = 150000,
                            maxiter = 50,
                            gpu = 1,
                            algorithm = CMAES,
                            delta = 1*ms,
                            R = [1.0e9, 9.0e9],
                            tau = [10*ms, 40*ms],
                            delays = [-20*ms, 20*ms],
                            refractory=[0*ms, 0*ms, 10*ms, 10*ms])
    print_table(results)
Ejemplo n.º 4
0
if __name__ == '__main__':

    model = Equations('''
        dV/dt=(R*I-V)/tau : 1
        I : 1
        R : 1
        tau : second
    ''')

    input = loadtxt('examples/modelfitting/current.txt')
    spikes0 = loadtxt('examples/modelfitting/spikes.txt')
    spikes = []
    for i in xrange(2):
        spikes.extend([(i, spike * second + 5 * i * ms) for spike in spikes0])

    results = modelfitting(model=model,
                           reset=0,
                           threshold=1,
                           data=spikes,
                           input=input,
                           dt=.1 * ms,
                           popsize=1000,
                           maxiter=3,
                           cpu=1,
                           delta=4 * ms,
                           R=[1.0e9, 9.0e9],
                           tau=[10 * ms, 40 * ms],
                           delays=[-10 * ms, 10 * ms])
    print_table(results)
Ejemplo n.º 5
0
if __name__ == '__main__':

    model = Equations('''
        dV/dt=(R*I-V)/tau : 1
        I : 1
        R : 1
        tau : second
    ''')

    input = loadtxt('current.txt')
    spikes0 = loadtxt('spikes.txt')
    spikes = []
    for i in xrange(2):
        spikes.extend([(i, spike*second + 5*i*ms) for spike in spikes0])

    results = modelfitting( model = model,
                            reset = 0,
                            threshold = 1,
                            data = spikes,
                            input = input,
                            dt = .1*ms,
                            popsize = 1000,
                            maxiter = 3,
                            cpu = 1,
                            delta = 4*ms,
                            R = [1.0e9, 9.0e9],
                            tau = [10*ms, 40*ms],
                            delays = [-10*ms, 10*ms])
    print_table(results)