symjax.nn.layers.Pool1D¶

class symjax.nn.layers.Pool1D(input, pool_shape, pool_type='MAX', strides=None)[source]¶

2-D (spatial) pooling

__init__(input, pool_shape, pool_type='MAX', strides=None)[source]¶: Initialize self. See help(type(self)) for accurate signature.

Methods

`__init__`(input, pool_shape[, pool_type, strides])	Initialize self.
`Pool1D.add_update`
`Pool1D.add_variable`
`argmax`([axis, out])	Returns the indices of the maximum values along an axis.
`argmin`([axis, out])	Returns the indices of the minimum values along an axis.
`astype`(new_dtype)	Elementwise cast.
`cast`(new_dtype)	Elementwise cast.
`clone`(givens)
`conj`()	Return the complex conjugate, element-wise.
`conjugate`()	Return the complex conjugate, element-wise.
`Pool1D.create_tensor`
`Pool1D.create_variable`
`dot`(b, *[, precision])	Dot product of two arrays.
`expand_dims`(axis, Tuple[int, …]])	Expand the shape of an array.
`flatten`()	reshape the input into a vector
`forward`()
`imag`()	Return the imaginary part of the complex argument.
`Pool1D.init_input`
`matmul`(b, *[, precision])	Matrix product of two arrays.
`max`([axis, out, keepdims, initial, where])	Return the maximum of an array or maximum along an axis.
`mean`([axis, dtype, out, keepdims])	Compute the arithmetic mean along the specified axis.
`min`([axis, out, keepdims, initial, where])	Return the minimum of an array or minimum along an axis.
`prod`([axis, dtype, out, keepdims, initial, …])	Return the product of array elements over a given axis.
`real`()	Return the real part of the complex argument.
`repeat`(repeats[, axis, total_repeat_length])	Repeat elements of an array.
`reshape`(newshape[, order])	Gives a new shape to an array without changing its data.
`round`([decimals, out])	Round an array to the given number of decimals.
`squeeze`(axis, Tuple[int, …]] = None)	Remove single-dimensional entries from the shape of an array.
`std`([axis, dtype, out, ddof, keepdims])	Compute the standard deviation along the specified axis.
`sum`([axis, dtype, out, keepdims, initial, where])	Sum of array elements over a given axis.
`transpose`([axes])	Reverse or permute the axes of an array; returns the modified array.
`var`([axis, dtype, out, ddof, keepdims])	Compute the variance along the specified axis.
`variables`([trainable])

Attributes

`dtype`
`Pool1D.fn_name`
`name`
`ndim`
`scope`
`shape`
`Pool1D.updates`