brainpy.layers.AdaptiveMaxPool3d

Contents

brainpy.layers.AdaptiveMaxPool3d#

class brainpy.layers.AdaptiveMaxPool3d(target_shape, channel_axis=-1, name=None, mode=None)[source]#

Adaptive three-dimensional maximum down-sampling.

Parameters:

target_shape (int, sequence of int) – The target output shape.
channel_axis (int, optional) – Axis of the spatial channels for which pooling is skipped. If None, there is no channel axis.
name (str) – The class name.
mode (Mode) – The computing mode.

__init__(target_shape, channel_axis=-1, name=None, mode=None)[source]#

Methods

`__init__`(target_shape[, channel_axis, name, ...])
`clear_input`()
`cpu`()	Move all variable into the CPU device.
`cuda`()	Move all variables into the GPU device.
`get_delay_data`(identifier, delay_step, *indices)	Get delay data according to the provided delay steps.
`load_state_dict`(state_dict[, warn, compatible])	Copy parameters and buffers from `state_dict` into this module and its descendants.
`load_states`(filename[, verbose])	Load the model states.
`nodes`([method, level, include_self])	Collect all children nodes.
`register_delay`(identifier, delay_step, ...)	Register delay variable.
`register_implicit_nodes`(*nodes[, node_cls])
`register_implicit_vars`(*variables[, var_cls])
`reset`(args, *kwargs)	Reset function which reset the whole variables in the model.
`reset_local_delays`([nodes])	Reset local delay variables.
`reset_state`(args, *kwargs)	Reset function which reset the states in the model.
`save_states`(filename[, variables])	Save the model states.
`state_dict`()	Returns a dictionary containing a whole state of the module.
`to`(device)	Moves all variables into the given device.
`tpu`()	Move all variables into the TPU device.
`train_vars`([method, level, include_self])	The shortcut for retrieving all trainable variables.
`tree_flatten`()	Flattens the object as a PyTree.
`tree_unflatten`(aux, dynamic_values)	Unflatten the data to construct an object of this class.
`unique_name`([name, type_])	Get the unique name for this object.
`update`(x)	Input-output mapping.
`update_local_delays`([nodes])	Update local delay variables.
`vars`([method, level, include_self, ...])	Collect all variables in this node and the children nodes.

Attributes

`global_delay_data`	Global delay data, which stores the delay variables and corresponding delay targets.
`mode`	Mode of the model, which is useful to control the multiple behaviors of the model.
`name`	Name of the model.