I'm trying to recreate NBeats from PyTorch to Keras. I'm working off the source code listed on this page: https://github.com/ElementAI/N-BEATS/blob/master/models/nbeats.py. Here's the example PyTorch Code I'm trying to emulate:
PYTORCH CODE:
class NBeatsBlock(t.nn.Module):
def __init__(self,
input_size,
theta_size: int,
basis_function: t.nn.Module,
layers: int,
layer_size: int):
super().__init__()
self.layers = t.nn.ModuleList([t.nn.Linear(in_features=input_size, out_features=layer_size)] +
[t.nn.Linear(in_features=layer_size, out_features=layer_size)
for _ in range(layers - 1)])
self.basis_parameters = t.nn.Linear(in_features=layer_size, out_features=theta_size)
self.basis_function = basis_function
def forward(self, x: t.Tensor) -> Tuple[t.Tensor, t.Tensor]:
block_input = x
for layer in self.layers:
block_input = t.relu(layer(block_input))
basis_parameters = self.basis_parameters(block_input)
return self.basis_function(basis_parameters)
class NBeats(t.nn.Module):
def __init__(self, blocks: t.nn.ModuleList):
super().__init__()
self.blocks = blocks
def forward(self, x: t.Tensor, input_mask: t.Tensor) -> t.Tensor:
residuals = x.flip(dims=(1,))
input_mask = input_mask.flip(dims=(1,))
forecast = x[:, -1:]
for i, block in enumerate(self.blocks):
backcast, block_forecast = block(residuals)
residuals = (residuals - backcast) * input_mask
forecast = forecast + block_forecast
return forecast
class GenericBasis(t.nn.Module):
def __init__(self, backcast_size: int, forecast_size: int):
super().__init__()
self.backcast_size = backcast_size
self.forecast_size = forecast_size
def forward(self, theta: t.Tensor):
return theta[:, :self.backcast_size], theta[:, -self.forecast_size:]
This is my Keras implementation of it:
KERAS CODE:
class NBeatsBlock(keras.layers.Layer):
def __init__(self,
theta_size: int,
basis_function: keras.layers.Layer,
layer_size: int = 4):
super(NBeatsBlock, self).__init__()
self.layers_ = [keras.layers.Dense(layer_size, activation = 'relu')
for i in range(layer_size)]
self.basis_parameters = keras.layers.Dense(theta_size)
self.basis_function = basis_function
def call(self, inputs):
x = self.layers_[0](inputs)
for layer in self.layers_[1:]:
x = layer(x)
x = self.basis_parameters(x)
return self.basis_function(x)
class NBeats(keras.layers.Layer):
def __init__(self,
blocksize: int,
theta_size: int,
basis_function: keras.layers.Layer):
super(NBeats, self).__init__()
self.blocks = [NBeatsBlock(theta_size = theta_size, basis_function = basis_function) for i in range(blocksize)]
def call(self, inputs):
residuals = K.reverse(inputs, axes = 0)
forecast = inputs[:, -1:]
for block in self.blocks:
backcast, block_forecast = block(residuals)
residuals = residuals - backcast
forecast = forecast + block_forecast
return forecast
class GenericBasis(keras.layers.Layer):
def __init__(self, backcast_size: int, forecast_size: int):
super().__init__()
self.backcast_size = backcast_size
self.forecast_size = forecast_size
def call(self, inputs):
return inputs[:, :self.backcast_size], inputs[:, -self.forecast_size:]
This looks very similar to me, and the keras code allows me to build an actual model with it as well:
inputs = Input(shape = (1, ))
nbeats = NBeats(blocksize = 4, theta_size = 7, basis_function = GenericBasis(7, 7))(inputs)
out = keras.layers.Dense(7)(nbeats)
model = Model(inputs, out)
However, it seems like the internal NBeatsBlock layers are not there when I check the model summary:
Similarly, when I plot the model I see no trace of the internal Dense layers created inside the NBeats block:
I don't need someone to troubleshoot all of my code, I'm most concerned with why none of the NBeatsBlock layers show up in my NBeats layer, and I presume this means I'm doing something incorrectly, although I'm not exactly sure why.
