Apply the 1d deconvolution.

  • If data_format is 'NCHW', excepts input shape \((N, C_{\text{in}}, H)\), filters shape \((C_{\text{in}}, C_{\text{out}}, H_{\text{f}})\), and output shape is \((N, C_{\text{out}}, H_{\text{out}})\).
  • If data_format is 'NHWC', excepts input shape \((N, H, C_{\text{in}})\), filters shape \((C_{\text{in}}, H_{\text{f}}, C_{\text{out}})\), and output shape is \((N, H_{\text{out}}, C_{\text{out}})\).
  • padding could be 'VALID', 'SAME' or explicit padding size.


x = tf.ones((1, 2, 2))
filters = tf.ones((3, 1, 2))
y = tf.nn.conv1d_transpose(x, filters, output_shape=(2,))
assert y.shape == (1, 2, 3)
  • input (dragon.Tensor) – The input tensor.
  • filters (dragon.Tensor) – The filters tensor.
  • output_shape (Union[Sequence[int], dragon.Tensor], optional) – The optional output shape.
  • strides (Union[int, Sequence[int]], default=1) – The stride of convolution window.
  • padding (Union[int, Sequence[int], str]) – The padding algorithm or size.
  • output_padding (Union[Sequence[int], dragon.Tensor], optional) – The additional size added to the output shape.
  • data_format (str, optional, default='NHWC') – 'NCHW' or 'NHWC'.
  • dilations (Union[int, Sequence[int]], optional, default=1) – The rate of dilated filters.
  • name (str, optional) – The operation name.

dragon.Tensor – The output tensor.