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Diehl&Cook_MNIST_random_conn_generator.py
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Diehl&Cook_MNIST_random_conn_generator.py
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'''
Created on 15.12.2014
@author: Peter U. Diehl
'''
import scipy.ndimage as sp
import numpy as np
import pylab
def randomDelay(minDelay, maxDelay):
return np.random.rand()*(maxDelay-minDelay) + minDelay
def computePopVector(popArray):
size = len(popArray)
complex_unit_roots = np.array([np.exp(1j*(2*np.pi/size)*cur_pos) for cur_pos in xrange(size)])
cur_pos = (np.angle(np.sum(popArray * complex_unit_roots)) % (2*np.pi)) / (2*np.pi)
return cur_pos
def sparsenMatrix(baseMatrix, pConn):
weightMatrix = np.zeros(baseMatrix.shape)
numWeights = 0
numTargetWeights = baseMatrix.shape[0] * baseMatrix.shape[1] * pConn
weightList = [0]*int(numTargetWeights)
while numWeights < numTargetWeights:
idx = (np.int32(np.random.rand()*baseMatrix.shape[0]), np.int32(np.random.rand()*baseMatrix.shape[1]))
if not (weightMatrix[idx]):
weightMatrix[idx] = baseMatrix[idx]
weightList[numWeights] = (idx[0], idx[1], baseMatrix[idx])
numWeights += 1
return weightMatrix, weightList
def create_weights():
nInput = 784
nE = 400
nI = nE
dataPath = './random/'
weight = {}
weight['ee_input'] = 0.3
weight['ei_input'] = 0.2
weight['ee'] = 0.1
weight['ei'] = 10.4
weight['ie'] = 17.0
weight['ii'] = 0.4
pConn = {}
pConn['ee_input'] = 1.0
pConn['ei_input'] = 0.1
pConn['ee'] = 1.0
pConn['ei'] = 0.0025
pConn['ie'] = 0.9
pConn['ii'] = 0.1
print 'create random connection matrices'
connNameList = ['XeAe']
for name in connNameList:
weightMatrix = np.random.random((nInput, nE)) + 0.01
weightMatrix *= weight['ee_input']
if pConn['ee_input'] < 1.0:
weightMatrix, weightList = sparsenMatrix(weightMatrix, pConn['ee_input'])
else:
weightList = [(i, j, weightMatrix[i,j]) for j in xrange(nE) for i in xrange(nInput)]
np.save(dataPath+name, weightList)
print 'create connection matrices from E->I which are purely random'
connNameList = ['XeAi']
for name in connNameList:
weightMatrix = np.random.random((nInput, nI))
weightMatrix *= weight['ei_input']
weightMatrix, weightList = sparsenMatrix(weightMatrix, pConn['ei_input'])
print 'save connection matrix', name
np.save(dataPath+name, weightList)
print 'create connection matrices from E->I which are purely random'
connNameList = ['AeAi']
for name in connNameList:
if nE == nI:
weightList = [(i, i, weight['ei']) for i in xrange(nE)]
else:
weightMatrix = np.random.random((nE, nI))
weightMatrix *= weight['ei']
weightMatrix, weightList = sparsenMatrix(weightMatrix, pConn['ei'])
print 'save connection matrix', name
np.save(dataPath+name, weightList)
print 'create connection matrices from I->E which are purely random'
connNameList = ['AiAe']
for name in connNameList:
if nE == nI:
weightMatrix = np.ones((nI, nE))
weightMatrix *= weight['ie']
for i in xrange(nI):
weightMatrix[i,i] = 0
weightList = [(i, j, weightMatrix[i,j]) for i in xrange(nI) for j in xrange(nE)]
else:
weightMatrix = np.random.random((nI, nE))
weightMatrix *= weight['ie']
weightMatrix, weightList = sparsenMatrix(weightMatrix, pConn['ie'])
print 'save connection matrix', name
np.save(dataPath+name, weightList)
if __name__ == "__main__":
create_weights()