ConvTranspose1d(in_channels: int, out_channels: int, kernel_size: Union[T, Tuple[T]], stride: Union[T, Tuple[T]] = 1, padding: Union[T, Tuple[T]] = 0, output_padding: Union[T, Tuple[T]] = 0, groups: int = 1, bias: bool = True, dilation: Union[T, Tuple[T]] = 1, padding_mode: str = 'zeros')¶
Applies a 1D transposed convolution operator over an input image composed of several input planes.
This module can be seen as the gradient of Conv1d with respect to its input. It is also known as a fractionally-strided convolution or a deconvolution (although it is not an actual deconvolution operation).
This module supports TensorFloat32.
stridecontrols the stride for the cross-correlation.
paddingcontrols the amount of implicit zero padding on both sides for
dilation * (kernel_size - 1) - paddingnumber of points. See note below for details.
output_paddingcontrols the additional size added to one side of the output shape. See note below for details.
dilationcontrols the spacing between the kernel points; also known as the à trous algorithm. It is harder to describe, but this link has a nice visualization of what
groupscontrols the connections between inputs and outputs.
out_channelsmust both be divisible by
groups. For example,
At groups=1, all inputs are convolved to all outputs.
At groups=2, the operation becomes equivalent to having two conv layers side by side, each seeing half the input channels and producing half the output channels, and both subsequently concatenated.
in_channels, each input channel is convolved with its own set of filters (of size ).
paddingargument effectively adds
dilation * (kernel_size - 1) - paddingamount of zero padding to both sizes of the input. This is set so that when a
ConvTranspose1dare initialized with same parameters, they are inverses of each other in regard to the input and output shapes. However, when
stride > 1,
Conv1dmaps multiple input shapes to the same output shape.
output_paddingis provided to resolve this ambiguity by effectively increasing the calculated output shape on one side. Note that
output_paddingis only used to find output shape, but does not actually add zero-padding to output.
In some circumstances when using the CUDA backend with CuDNN, this operator may select a nondeterministic algorithm to increase performance. If this is undesirable, you can try to make the operation deterministic (potentially at a performance cost) by setting
torch.backends.cudnn.deterministic = True. Please see the notes on Reproducibility for background.
in_channels (int) – Number of channels in the input image
out_channels (int) – Number of channels produced by the convolution
groups (int, optional) – Number of blocked connections from input channels to output channels. Default: 1
bias (bool, optional) – If
True, adds a learnable bias to the output. Default: