How to extract partial derivatives of some specific layer in the back-propagation of a deep learning model?

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SC
SC el 22 de Nov. de 2019
Comentada: SC el 27 de Nov. de 2019
Say I have a deep learning model, and after training I call this model net.
When I input some images into net, I want to have the partial derivatives , where h are the outputs of the relu1 layer (i.e. ) and θ are the parameters of all trainable weights of the layers before relu1.
You can see that h (i.e. the output of relu1) will have a size of . I write the size of the training weights before relu1 as , where would be the set of all trainable parameters of the layers before relu1. Therefore should have the size of .
How can I get in the code? Many thanks!
My current code
%% Load Data
digitDatasetPath = fullfile(matlabroot,'toolbox','nnet','nndemos', ...
'nndatasets','DigitDataset');
imds = imageDatastore(digitDatasetPath, ...
'IncludeSubfolders',true, ...
'LabelSource','foldernames');
numTrainFiles = 50;
[imdsTrain,imdsValidation] = splitEachLabel(imds,numTrainFiles,'randomize');
%% Define Network Architecture
inputSize = [28 28 1];
numClasses = 10;
layers = [
imageInputLayer(inputSize)
convolution2dLayer(5,20,'Name','conv1')
batchNormalizationLayer('Name','bn1')
reluLayer('Name','relu1')
fullyConnectedLayer(numClasses,'Name','fc2')
softmaxLayer('Name','softmax')
classificationLayer];
%% Train Network
options = trainingOptions('sgdm', ...
'MaxEpochs',4, ...
'ValidationData',imdsValidation, ...
'ValidationFrequency',30, ...
'Verbose',false, ...
'Plots','training-progress');
net = trainNetwork(imdsTrain,layers,options);

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Respuestas (1)

Dinesh Yadav
Dinesh Yadav el 26 de Nov. de 2019
Hi
Kindly go through the following link and examples in it.
https://www.mathworks.com/help/deeplearning/ref/dlarray.dlgradient.html
After the reluLayer command you can use dlgradient to compute partial derivatives on the outputs of relu layer.
Hope it helps.
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Dinesh Yadav
Dinesh Yadav el 27 de Nov. de 2019
I dont think there is a way to do it with dlgradient without using loops . If you want to do it without using loops you will have to write your own custom gradient function.
SC
SC el 27 de Nov. de 2019
I think something like the jacobian() would help.
jacobian() works for the simple rosenbrock() case, but I don't think it works for the deep learning objects...
I will use a for-loop with dlgradient() then (but I need to loop over 10000+ times since the output size of my desired layer is over 10000, so it will waste many computed re-usable values in the back-propagation and become much more time comsuming than the theorectical computational time). Thank you for your help.

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