def __init__(self, backend, dataset, subj): ad = { 'type': 'adadelta', 'lr_params': { 'rho': 0.9, 'epsilon': 0.000000001 } } self.layers = [] self.add( DataLayer(is_local=True, nofm=dataset.nchannels, ofmshape=[1, dataset.nsamples])) self.add( ConvLayer(nofm=64, fshape=[1, 3], activation=RectLin(), lrule_init=ad)) self.add(PoolingLayer(op='max', fshape=[1, 2], stride=2)) if subj != 2: self.add(FCLayer(nout=128, activation=RectLin(), lrule_init=ad)) self.add( FCLayer(nout=dataset.nclasses, activation=Logistic(), lrule_init=ad)) self.add(CostLayer(cost=CrossEntropy())) self.model = MLP(num_epochs=1, batch_size=128, layers=self.layers) self.dataset = dataset
def create_model(nin): layers = [] layers.append(DataLayer(nout=nin)) layers.append(FCLayer(nout=100, activation=RectLin())) layers.append(FCLayer(nout=10, activation=Logistic())) layers.append(CostLayer(cost=CrossEntropy())) model = MLP(num_epochs=10, batch_size=128, layers=layers) return model