layer_conv_1d_reparameterization | R Documentation |
This layer creates a convolution kernel that is convolved
(actually cross-correlated) with the layer input to produce a tensor of
outputs. It may also include a bias addition and activation function
on the outputs. It assumes the kernel
and/or bias
are drawn from distributions.
layer_conv_1d_reparameterization( object, filters, kernel_size, strides = 1, padding = "valid", data_format = "channels_last", dilation_rate = 1, activation = NULL, activity_regularizer = NULL, trainable = TRUE, kernel_posterior_fn = tfp$layers$util$default_mean_field_normal_fn(), kernel_posterior_tensor_fn = function(d) d %>% tfd_sample(), kernel_prior_fn = tfp$layers$util$default_multivariate_normal_fn, kernel_divergence_fn = function(q, p, ignore) tfd_kl_divergence(q, p), bias_posterior_fn = tfp$layers$util$default_mean_field_normal_fn(is_singular = TRUE), bias_posterior_tensor_fn = function(d) d %>% tfd_sample(), bias_prior_fn = NULL, bias_divergence_fn = function(q, p, ignore) tfd_kl_divergence(q, p), ... )
object |
What to compose the new
|
filters |
Integer, the dimensionality of the output space (i.e. the number of filters in the convolution). |
kernel_size |
An integer or list of a single integer, specifying the length of the 1D convolution window. |
strides |
An integer or list of a single integer,
specifying the stride length of the convolution.
Specifying any stride value != 1 is incompatible with specifying
any |
padding |
One of |
data_format |
A string, one of |
dilation_rate |
An integer or tuple/list of a single integer, specifying
the dilation rate to use for dilated convolution.
Currently, specifying any |
activation |
Activation function. Set it to None to maintain a linear activation. |
activity_regularizer |
Regularizer function for the output. |
trainable |
Whether the layer weights will be updated during training. |
kernel_posterior_fn |
Function which creates |
kernel_posterior_tensor_fn |
Function which takes a |
kernel_prior_fn |
Function which creates |
kernel_divergence_fn |
Function which takes the surrogate posterior distribution, prior distribution and random variate
sample(s) from the surrogate posterior and computes or approximates the KL divergence. The
distributions are |
bias_posterior_fn |
Function which creates a |
bias_posterior_tensor_fn |
Function which takes a |
bias_prior_fn |
Function which creates |
bias_divergence_fn |
Function which takes the surrogate posterior distribution, prior distribution and random variate sample(s)
from the surrogate posterior and computes or approximates the KL divergence. The
distributions are |
... |
Additional keyword arguments passed to the |
This layer implements the Bayesian variational inference analogue to
a dense layer by assuming the kernel
and/or the bias
are drawn
from distributions.
By default, the layer implements a stochastic forward pass via sampling from the kernel and bias posteriors,
outputs = f(inputs; kernel, bias), kernel, bias ~ posterior
where f denotes the layer's calculation. It uses the reparameterization
estimator (Kingma and Welling, 2014), which performs a Monte Carlo
approximation of the distribution integrating over the kernel
and bias
.
The arguments permit separate specification of the surrogate posterior
(q(W|x)
), prior (p(W)
), and divergence for both the kernel
and bias
distributions.
Upon being built, this layer adds losses (accessible via the losses
property) representing the divergences of kernel
and/or bias
surrogate
posteriors and their respective priors. When doing minibatch stochastic
optimization, make sure to scale this loss such that it is applied just once
per epoch (e.g. if kl
is the sum of losses
for each element of the batch,
you should pass kl / num_examples_per_epoch
to your optimizer).
You can access the kernel
and/or bias
posterior and prior distributions
after the layer is built via the kernel_posterior
, kernel_prior
,
bias_posterior
and bias_prior
properties.
a Keras layer
Other layers:
layer_autoregressive()
,
layer_conv_1d_flipout()
,
layer_conv_2d_flipout()
,
layer_conv_2d_reparameterization()
,
layer_conv_3d_flipout()
,
layer_conv_3d_reparameterization()
,
layer_dense_flipout()
,
layer_dense_local_reparameterization()
,
layer_dense_reparameterization()
,
layer_dense_variational()
,
layer_variable()
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