def test_cnn_predict(): X = np.random.standard_normal((10, 2 * 100 * 50)) X, = theano_floatx(X) m = Cnn( 100 * 50, [10, 15], [20, 12], 1, ['sigmoid', 'sigmoid'], ['rectifier', 'rectifier'], 'sigmoid', 'cat_ce', 100, 50, 2, optimizer=('rmsprop', { 'step_rate': 1e-4, 'decay': 0.9 }), batch_size=2, max_iter=10, pool_shapes=[(2, 2), (2, 2)], filter_shapes=[(4, 4), (3, 3)], ) m.predict(X)
def test_cnn_predict(): X = np.random.standard_normal((10, 2 * 100 * 50)) X, = theano_floatx(X) m = Cnn(100 * 50, [10, 15], [20, 12], 1, ['sigmoid', 'sigmoid'], ['rectifier', 'rectifier'], 'sigmoid', 'cat_ce', 100, 50, 2, optimizer=('rmsprop', {'step_rate': 1e-4, 'decay': 0.9}), batch_size=2, max_iter=10, pool_shapes=[(2, 2), (2, 2)], filter_shapes=[(4, 4), (3, 3)], ) m.predict(X)