mlr_pipeops_nn_avg_pool2d: 2D Average Pooling
In mlr3torch: Deep Learning with 'mlr3'
mlr_pipeops_nn_avg_pool2d R Documentation
2D Average Pooling
Description
Applies 2D average-pooling operation in kH * kW regions by step size
sH * sW steps. The number of output features is equal to the number of
input planes.
nn_module
Calls nn_avg_pool2d() during training.
Input and Output Channels
One input channel called "input" and one output channel called "output".
For an explanation see PipeOpTorch.
State
The state is the value calculated by the public method $shapes_out().
Parameters
-
kernel_size :: (integer())
The size of the window. Can be a single number or a vector.
-
stride :: integer()
The stride of the window. Can be a single number or a vector. Default: kernel_size.
-
padding :: integer()
Implicit zero paddings on both sides of the input. Can be a single number or a vector. Default: 0.
-
ceil_mode :: integer()
When TRUE, will use ceil instead of floor to compute the output shape. Default: FALSE.
-
count_include_pad :: logical(1)
When TRUE, will include the zero-padding in the averaging calculation. Default: TRUE.
-
divisor_override :: logical(1)
If specified, it will be used as divisor, otherwise size of the pooling region will be used. Default: NULL.
Only available for dimension greater than 1.
Super classes
mlr3pipelines::PipeOp -> mlr3torch::PipeOpTorch -> mlr3torch::PipeOpTorchAvgPool -> PipeOpTorchAvgPool2D
Methods
Public methods
Inherited methods
Method new()
Creates a new instance of this R6 class.
Usage
PipeOpTorchAvgPool2D$new(id = "nn_avg_pool2d", param_vals = list())
Arguments
id(character(1))
Identifier of the resulting object.
param_vals(list())
List of hyperparameter settings, overwriting the hyperparameter settings that would
otherwise be set during construction.
Method clone()
The objects of this class are cloneable with this method.
Usage
PipeOpTorchAvgPool2D$clone(deep = FALSE)
Arguments
deepWhether to make a deep clone.
See Also
Other PipeOps:
mlr_pipeops_nn_adaptive_avg_pool1d,
mlr_pipeops_nn_adaptive_avg_pool2d,
mlr_pipeops_nn_adaptive_avg_pool3d,
mlr_pipeops_nn_avg_pool1d,
mlr_pipeops_nn_avg_pool3d,
mlr_pipeops_nn_batch_norm1d,
mlr_pipeops_nn_batch_norm2d,
mlr_pipeops_nn_batch_norm3d,
mlr_pipeops_nn_block,
mlr_pipeops_nn_celu,
mlr_pipeops_nn_conv1d,
mlr_pipeops_nn_conv2d,
mlr_pipeops_nn_conv3d,
mlr_pipeops_nn_conv_transpose1d,
mlr_pipeops_nn_conv_transpose2d,
mlr_pipeops_nn_conv_transpose3d,
mlr_pipeops_nn_dropout,
mlr_pipeops_nn_elu,
mlr_pipeops_nn_flatten,
mlr_pipeops_nn_gelu,
mlr_pipeops_nn_glu,
mlr_pipeops_nn_hardshrink,
mlr_pipeops_nn_hardsigmoid,
mlr_pipeops_nn_hardtanh,
mlr_pipeops_nn_head,
mlr_pipeops_nn_layer_norm,
mlr_pipeops_nn_leaky_relu,
mlr_pipeops_nn_linear,
mlr_pipeops_nn_log_sigmoid,
mlr_pipeops_nn_max_pool1d,
mlr_pipeops_nn_max_pool2d,
mlr_pipeops_nn_max_pool3d,
mlr_pipeops_nn_merge,
mlr_pipeops_nn_merge_cat,
mlr_pipeops_nn_merge_prod,
mlr_pipeops_nn_merge_sum,
mlr_pipeops_nn_prelu,
mlr_pipeops_nn_relu,
mlr_pipeops_nn_relu6,
mlr_pipeops_nn_reshape,
mlr_pipeops_nn_rrelu,
mlr_pipeops_nn_selu,
mlr_pipeops_nn_sigmoid,
mlr_pipeops_nn_softmax,
mlr_pipeops_nn_softplus,
mlr_pipeops_nn_softshrink,
mlr_pipeops_nn_softsign,
mlr_pipeops_nn_squeeze,
mlr_pipeops_nn_tanh,
mlr_pipeops_nn_tanhshrink,
mlr_pipeops_nn_threshold,
mlr_pipeops_nn_unsqueeze,
mlr_pipeops_torch_ingress,
mlr_pipeops_torch_ingress_categ,
mlr_pipeops_torch_ingress_ltnsr,
mlr_pipeops_torch_ingress_num,
mlr_pipeops_torch_loss,
mlr_pipeops_torch_model,
mlr_pipeops_torch_model_classif,
mlr_pipeops_torch_model_regr
Examples
# Construct the PipeOp
pipeop = po("nn_avg_pool2d")
pipeop
# The available parameters
pipeop$param_set
mlr3torch documentation built on April 4, 2025, 3:03 a.m.
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| mlr_pipeops_nn_avg_pool2d | R Documentation |
2D Average Pooling
Description
Applies 2D average-pooling operation in kH * kW regions by step size
sH * sW steps. The number of output features is equal to the number of
input planes.
nn_module
Calls nn_avg_pool2d() during training.
Input and Output Channels
One input channel called "input" and one output channel called "output".
For an explanation see PipeOpTorch.
State
The state is the value calculated by the public method $shapes_out().
Parameters
-
kernel_size:: (integer())
The size of the window. Can be a single number or a vector. -
stride::integer()
The stride of the window. Can be a single number or a vector. Default:kernel_size. -
padding::integer()
Implicit zero paddings on both sides of the input. Can be a single number or a vector. Default: 0. -
ceil_mode::integer()
WhenTRUE, will use ceil instead of floor to compute the output shape. Default:FALSE. -
count_include_pad::logical(1)
WhenTRUE, will include the zero-padding in the averaging calculation. Default:TRUE. -
divisor_override::logical(1)
If specified, it will be used as divisor, otherwise size of the pooling region will be used. Default: NULL. Only available for dimension greater than 1.
Super classes
mlr3pipelines::PipeOp -> mlr3torch::PipeOpTorch -> mlr3torch::PipeOpTorchAvgPool -> PipeOpTorchAvgPool2D
Methods
Public methods
Inherited methods
Method new()
Creates a new instance of this R6 class.
Usage
PipeOpTorchAvgPool2D$new(id = "nn_avg_pool2d", param_vals = list())
Arguments
id(
character(1))
Identifier of the resulting object.param_vals(
list())
List of hyperparameter settings, overwriting the hyperparameter settings that would otherwise be set during construction.
Method clone()
The objects of this class are cloneable with this method.
Usage
PipeOpTorchAvgPool2D$clone(deep = FALSE)
Arguments
deepWhether to make a deep clone.
See Also
Other PipeOps:
mlr_pipeops_nn_adaptive_avg_pool1d,
mlr_pipeops_nn_adaptive_avg_pool2d,
mlr_pipeops_nn_adaptive_avg_pool3d,
mlr_pipeops_nn_avg_pool1d,
mlr_pipeops_nn_avg_pool3d,
mlr_pipeops_nn_batch_norm1d,
mlr_pipeops_nn_batch_norm2d,
mlr_pipeops_nn_batch_norm3d,
mlr_pipeops_nn_block,
mlr_pipeops_nn_celu,
mlr_pipeops_nn_conv1d,
mlr_pipeops_nn_conv2d,
mlr_pipeops_nn_conv3d,
mlr_pipeops_nn_conv_transpose1d,
mlr_pipeops_nn_conv_transpose2d,
mlr_pipeops_nn_conv_transpose3d,
mlr_pipeops_nn_dropout,
mlr_pipeops_nn_elu,
mlr_pipeops_nn_flatten,
mlr_pipeops_nn_gelu,
mlr_pipeops_nn_glu,
mlr_pipeops_nn_hardshrink,
mlr_pipeops_nn_hardsigmoid,
mlr_pipeops_nn_hardtanh,
mlr_pipeops_nn_head,
mlr_pipeops_nn_layer_norm,
mlr_pipeops_nn_leaky_relu,
mlr_pipeops_nn_linear,
mlr_pipeops_nn_log_sigmoid,
mlr_pipeops_nn_max_pool1d,
mlr_pipeops_nn_max_pool2d,
mlr_pipeops_nn_max_pool3d,
mlr_pipeops_nn_merge,
mlr_pipeops_nn_merge_cat,
mlr_pipeops_nn_merge_prod,
mlr_pipeops_nn_merge_sum,
mlr_pipeops_nn_prelu,
mlr_pipeops_nn_relu,
mlr_pipeops_nn_relu6,
mlr_pipeops_nn_reshape,
mlr_pipeops_nn_rrelu,
mlr_pipeops_nn_selu,
mlr_pipeops_nn_sigmoid,
mlr_pipeops_nn_softmax,
mlr_pipeops_nn_softplus,
mlr_pipeops_nn_softshrink,
mlr_pipeops_nn_softsign,
mlr_pipeops_nn_squeeze,
mlr_pipeops_nn_tanh,
mlr_pipeops_nn_tanhshrink,
mlr_pipeops_nn_threshold,
mlr_pipeops_nn_unsqueeze,
mlr_pipeops_torch_ingress,
mlr_pipeops_torch_ingress_categ,
mlr_pipeops_torch_ingress_ltnsr,
mlr_pipeops_torch_ingress_num,
mlr_pipeops_torch_loss,
mlr_pipeops_torch_model,
mlr_pipeops_torch_model_classif,
mlr_pipeops_torch_model_regr
Examples
# Construct the PipeOp
pipeop = po("nn_avg_pool2d")
pipeop
# The available parameters
pipeop$param_set
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