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GlobalMaxPool3D

Description

Define the global max pooling 3D layer according to its parameters. To be used for the TimeDistributed layer. Type : polymorphic.

 

Input parameters

 

parameters : layer parameters.

Β data_format :Β enum, one ofΒ channels_lastΒ orΒ channels_firstΒ (default) . The ordering of the dimensions in the inputs.Β channel_lastΒ corresponds to inputs with shapeΒ (batch, steps, features)Β whileΒ channels_firstΒ corresponds to inputs with shapeΒ (batch, features, steps).
Default value β€œchannels_first”.
Β keepdims :Β boolean, a boolean, whether to keep the spatial dimensions or not. If keepdims is β€˜False’ (default), the rank of the tensor is reduced for spatial dimensions. If keepdims is β€˜True’, the spatial dimensions are retained with length 1.
Default value β€œFalse”.
Β training?Β :Β boolean, whether the layer is in training mode (can store data for backward).
Default value β€œTrue”.
Β lda_coeff :Β float, defines the coefficient by which the loss derivative will be multiplied before being sent to the previous layer (since during the backward run we go backwards).
Default value β€œ1”.

 

Output parameters

 

Β GlobalMaxPool3D out : layer global max pooling 3D architecture.

Example

All these exemples are snippets PNG, you can drop these Snippet onto the block diagram and get the depicted code added to your VI (Do not forget to install HAIBAL library to run it).

GlobalMaxPool3D layer inside TimeDistributed layer

1 – Generate a set of data

We generate an array of data of type single and shape [batch_size = 10, time = 6, channels = 7, spatial_dim1 = 5, spatial_dim2 = 5, spatial_dim3 = 3].

2 – Define graph

First, we define the first layer of the graph which is an Input layer (explicit input layer method). This layer is setup as an input array shaped [time = 6, channels = 7, spatial_dim1 = 5, spatial_dim2 = 5, spatial_dim3 = 3].
Then, we add to the graph the TimeDistributed layer which we setup with a GlobalMaxPool3D layer using the define method.

3 – Run graph

We call the forward method and retrieve the result with the β€œPrediction 3D” method.
This method returns two variables, the first one is the layer information (cluster composed of the layer name, the graph index and the shape of the output layer) and the second one is the prediction with a shape of [batch_size, time, channels].
The output dimension depends on the parameters β€œkeepdims”, refer to the chapter β€œDimension” of β€œadd to graph” documentation.

 

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