mindspore.ops.MaxUnpool2D
- class mindspore.ops.MaxUnpool2D(ksize, strides=0, pads=0, output_shape=(), data_format='NCHW')[source]
Calculates the partial inverse of MaxPool2D operation.
Since MaxPool2D loses non-maximal values, it is not fully invertible. Therefore, MaxUnpool2D takes the output of MaxPool2D, including the indices of the maximal values, and computes a partial inverse where all non-maximal values are set to zero. Typically the input is of shape \((N, C, H_{in}, W_{in})\) , the output is of shape \((N, C, H_{out}, W_{out})\) , the operation is as follows:
\[\begin{split}\begin{array}{ll} \\ H_{out} = (H{in} - 1) \times strides[0] - 2 \times pads[0] + ksize[0] \\ W_{out} = (W{in} - 1) \times strides[1] - 2 \times pads[1] + ksize[1] \\ \end{array}\end{split}\]Warning
This is an experimental API that is subject to change or deletion.
- Parameters
ksize (Union[int, tuple[int]]) – The size of kernel used to take the maximum value, is an int number that represents height and width of the kernel, or a tuple of two int numbers that represent height and width respectively.
strides (Union[int, tuple[int]], optional) –
The strides of kernel moving. If strides is 0 or (0, 0), then strides equal to ksize . Default:
0
.An int number that represents the height and width of movement are both strides .
A tuple of two int numbers that represent height and width of movement respectively.
pads (Union[int, tuple[int]], optional) –
The pad value to be filled. Default:
0
.If pads is an integer, the paddings of height and width are the same, equal to pads.
If pads is a tuple of two integers, the padding of height and width equal to pads[0] and pads[1] correspondingly.
output_shape (tuple[int], optional) –
The target output size is an optional input. Default:
()
.If \(output\_shape == ()\) , then the shape of output computed by kszie, strides and pads .
If \(output\_shape != ()\) , then output_shape must be \((N, C, H, W)\) or \((N, H, W, C)\) and output_shape must belong to \([(N, C, H_{out} - strides[0], W_{out} - strides[1]), (N, C, H_{out} + strides[0], W_{out} + strides[1])]\).
data_format (str, optional) – The optional value for data format. Currently support
"NCHW"
and"NHWC"
. Default:"NCHW"
.
- Inputs:
x (Tensor) - The input Tensor to invert. Tensor of shape \((N, C, H_{in}, W_{in})\) or \((N, H_{in}, W_{in}, C)\).
argmax (Tensor) - Max values’ index represented by the argmax. Tensor of shape must be same with input x. Values of argmax must belong to \([0, H_{in} \times W_{in} - 1]\). Data type must be in int32 or int64.
- Outputs:
Tensor, with shape \((N, C, H_{out}, W_{out})\) or \((N, H_{out}, W_{out}, C)\). Has the same data type with x.
- Raises
TypeError – If data type of x or argmax is not supported.
TypeError – If ksize, strides or pads is neither int nor tuple.
ValueError – If numbers in strides (also support 0 and (0, 0)) or ksize is not positive.
ValueError – If numbers in pads is negative.
ValueError – If ksize, strides or pads is a tuple whose length is not equal to 2.
ValueError – If data_format is not a str or is neither NCHW nor NHWC.
ValueError – If output_shape whose length is neither 0 or 4.
ValueError – If output_shape is not close to output size computed by attr ksize, strides and pads.
- Supported Platforms:
Ascend
GPU
CPU
Examples
>>> import numpy as np >>> from mindspore import Tensor, ops >>> x = Tensor(np.array([[[[0, 1], [8, 9]]]]).astype(np.float32)) >>> argmax = Tensor(np.array([[[[0, 1], [2, 3]]]]).astype(np.int64)) >>> maxunpool2d = ops.MaxUnpool2D(ksize=1, strides=1, pads=0) >>> output = maxunpool2d(x, argmax) >>> print(output.asnumpy()) [[[[0. 1.] [8. 9.]]]]