Esempio n. 1
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 def init(self):
     naxes = len(self.out_shape)
     if naxes == 2 or naxes == 4:
         dim = self.out_shape[1]
     elif naxes == 3:
         dim = self.out_shape[-1]
     else:
         raise NotImplementedError
     self.g = inits.Constant(c=1.)(dim)
     self.b = inits.Constant(c=0.)(dim)
     self.u = inits.Constant(c=0.)(dim)
     self.s = inits.Constant(c=0.)(dim)
     self.n = sharedX(0.)
     self.params = [self.g, self.b]
     self.other_params = [self.u, self.s, self.n]
Esempio n. 2
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 def __init__(self,
              activation,
              init_fn=inits.Constant(c=0.25),
              update_fn='nag'):
     self.activation = instantiate(activations, activation)
     self.init_fn = instantiate(inits, init_fn)
     self.update_fn = instantiate(updates, update_fn)
Esempio n. 3
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    h = leakyrectify(scale_and_shift(T.dot(X, w), g, b))
    h2 = leakyrectify(scale_and_shift(T.dot(h, w2), g2, b2))
    y = T.dot(h2, wo)
    return y


def d(X, w, g, b, w2, g2, b2, wo):
    h = rectify(scale_and_shift(T.dot(X, w), g, b))
    h2 = tanh(scale_and_shift(T.dot(h, w2), g2, b2))
    y = sigmoid(T.dot(h2, wo))
    return y


#initialize both networks
gw = init_fn((1, nh))
gg = inits.Constant(1.)(nh)
gg = inits.Normal(1., 0.02)(nh)
gb = inits.Normal(0., 0.02)(nh)
gw2 = init_fn((nh, nh))
gg2 = inits.Normal(1., 0.02)(nh)
gb2 = inits.Normal(0., 0.02)(nh)
gy = init_fn((nh, 1))
ggy = inits.Constant(1.)(1)
gby = inits.Normal(0., 0.02)(1)
dw = init_fn((1, nh))
dg = inits.Normal(1., 0.02)(nh)
db = inits.Normal(0., 0.02)(nh)
dw2 = init_fn((nh, nh))
dg2 = inits.Normal(1., 0.02)(nh)
db2 = inits.Normal(0., 0.02)(nh)
dy = init_fn((nh, 1))