def model(action_axes):
    return neon.Sequential([
        neon.Affine(
            nout=10,
            weight_init=neon.GlorotInit(),
            bias_init=neon.ConstantInit(),
            activation=neon.Tanh(),
        ),
        neon.Affine(weight_init=neon.GlorotInit(),
                    bias_init=neon.ConstantInit(),
                    activation=neon.Tanh(),
                    axes=(action_axes, )),
    ])
Пример #2
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 def __init__(self, activation_function=neon.Rectlin(), name="middleware_embedder"):
     self.name = name
     self.input = None
     self.output = None
     self.weights_init = neon.GlorotInit()
     self.biases_init = neon.ConstantInit()
     self.activation_function = activation_function
Пример #3
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 def __init__(self, input_size, batch_size=None, activation_function=neon.Rectlin(), name="embedder"):
     self.name = name
     self.input_size = input_size
     self.batch_size = batch_size
     self.activation_function = activation_function
     self.weights_init = neon.GlorotInit()
     self.biases_init = neon.ConstantInit()
     self.input = None
     self.output = None
Пример #4
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 def __init__(self, tuning_parameters, head_idx=0, loss_weight=1., is_local=True):
     self.head_idx = head_idx
     self.name = "head"
     self.output = []
     self.loss = []
     self.loss_type = []
     self.regularizations = []
     self.loss_weight = force_list(loss_weight)
     self.weights_init = neon.GlorotInit()
     self.biases_init = neon.ConstantInit()
     self.target = []
     self.input = []
     self.is_local = is_local
     self.batch_size = tuning_parameters.batch_size