Computes gradient of the FractionalMaxPool function.
Nested Classes
class | FractionalMaxPoolGrad.Options | Optional attributes for FractionalMaxPoolGrad
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Constants
String | OP_NAME | The name of this op, as known by TensorFlow core engine |
Public Methods
Output<T> |
asOutput()
Returns the symbolic handle of the tensor.
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static <T extends TNumber> FractionalMaxPoolGrad<T> | |
Output<T> |
output()
4-D.
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static FractionalMaxPoolGrad.Options |
overlapping(Boolean overlapping)
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Inherited Methods
Constants
public static final String OP_NAME
The name of this op, as known by TensorFlow core engine
Public Methods
public Output<T> asOutput ()
Returns the symbolic handle of the tensor.
Inputs to TensorFlow operations are outputs of another TensorFlow operation. This method is used to obtain a symbolic handle that represents the computation of the input.
public static FractionalMaxPoolGrad<T> create (Scope scope, Operand<T> origInput, Operand<T> origOutput, Operand<T> outBackprop, Operand<TInt64> rowPoolingSequence, Operand<TInt64> colPoolingSequence, Options... options)
Factory method to create a class wrapping a new FractionalMaxPoolGrad operation.
Parameters
scope | current scope |
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origInput | Original input for `fractional_max_pool` |
origOutput | Original output for `fractional_max_pool` |
outBackprop | 4-D with shape `[batch, height, width, channels]`. Gradients w.r.t. the output of `fractional_max_pool`. |
rowPoolingSequence | row pooling sequence, form pooling region with col_pooling_sequence. |
colPoolingSequence | column pooling sequence, form pooling region with row_pooling sequence. |
options | carries optional attributes values |
Returns
- a new instance of FractionalMaxPoolGrad
public static FractionalMaxPoolGrad.Options overlapping (Boolean overlapping)
Parameters
overlapping | When set to True, it means when pooling, the values at the boundary
of adjacent pooling cells are used by both cells. For example:
`index 0 1 2 3 4` `value 20 5 16 3 7` If the pooling sequence is [0, 2, 4], then 16, at index 2 will be used twice. The result would be [20, 16] for fractional max pooling. |
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