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Accelerator
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Constant
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Generator
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Full Train Step
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Eval Step
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Train Step
Col2lm
Description
The operator rearranges column blocks back into a multidimensional image
Col2Im behaves similarly to PyTorchβs foldΒ https://pytorch.org/docs/stable/generated/torch.nn.Fold.html, but it only supportsΒ batchedΒ multi-dimensional image tensors. Another implementation in Python with N-dimension support can be found atΒ https://github.com/f-dangel/unfoldNd/.
NOTE: Although specifying image_shape looks redundant because it could be calculated from convolution formulas, it is required as input for more advanced scenarios as explained at PyTorchβs implementation (https://github.com/pytorch/pytorch/blob/master/aten/src/ATen/native/Col2Im.cpp#L10)
Β
Input parameters
specified_outputs_name :Β array, this parameter lets you manually assign custom names to the output tensors of a node.
Β Graphs in :Β cluster, ONNX model architecture.
inputΒ (heterogeneous) –Β T : object, input data tensor to be rearranged from column blocks back into an image. This is a 3-dimensional tensor containing [N, C * n-ary-product(block_shape), L], where N is batch dimension, C is image channel dimension and L is number of blocks.The blocks are enumerated in increasing lexicographic-order of their indices.For example, with an image-size 1020 and block-size 918, there would be 2*3 blocks, enumerated in the order block(0, 0), block(0, 1), block(0, 2), block(1, 0), block(1, 1), block(1, 2). image_shape (heterogeneous) – tensor(int64) : object, the shape of the spatial dimensions of the image after rearranging the column blocks.This is a 1-dimensional tensor with size of at least 2, containing the value [H_img, W_img] for a 2-D image or [dim_i1, dim_i2, β¦, dim_iN] for a N-D image. block_shape (heterogeneous) – tensor(int64) : object, the shape of the block to apply on the input.This is a 1-dimensional tensor of size of at least 2, containing the value [H_block, W_block] for a 2-D image or [dim_b1, dim_b2, β¦, dim_bN] for a N-D block.This is the block-shape before dilation is applied to it.
Β Parameters : cluster,
dilationsΒ : array, 1-dimensional tensor with dilation value along each spatial axis of the image. If not present, the dilation defaults to 1 along each spatial axis of the image.
Default value βemptyβ. padsΒ : array, 1-dimensional tensor with padding value for the beginning and ending along each spatial axis, it can take any value greater than or equal to 0. The value represent the number of pixels added to the beginning and end part of the corresponding axis.Β padsΒ format should be as follow [x1_begin, x2_beginβ¦x1_end, x2_end,β¦], where xi_begin is the number of pixels added at the beginning of axisΒ iΒ and xi_end is the number of pixels added at the end of axisΒ i. If not present, the padding defaults to 0 along start and end of each spatial axis.
Default value βemptyβ. strides : array, 1-dimensional tensor with stride value along each spatial axis. If not present, the stride defaults to 1 along each spatial axis.
Default value βemptyβ.
Β training?Β :Β boolean, whether the layer is in training mode (can store data for backward).
Default value βTrueβ.
Β lda coeff :Β float, defines the coefficient by which the loss derivative will be multiplied before being sent to the previous layer (since during the backward run we go backwards).
Default value β1β.
Β name (optional) :Β string, name of the node.
Output parameters
output (heterogeneous) – T : object, output tensor produced by rearranging blocks into an image.
Type Constraints
T in (tensor(bfloat16),Β tensor(bool),Β tensor(complex128),Β tensor(complex64),Β tensor(double),Β tensor(float),Β tensor(float16),Β tensor(int16),Β tensor(int32),Β tensor(int64),Β tensor(int8),Β tensor(string),Β tensor(uint16),Β tensor(uint32),Β tensor(uint64),Β tensor(uint8)) : Constrain input and output types to all numeric tensor types.