my dlgradient returns all "0"

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世锬
世锬 on 18 Mar 2024
Answered: arushi on 10 Sep 2024
The Net goes here
layers1 = [
sequenceInputLayer([4 1 2],"Name","betaIn")
convolution2dLayer([3 2],32,"Name","conv1_1","Padding",[1 1 1 1],"WeightL2Factor",0)
reluLayer("Name","relu1_1")
convolution2dLayer([3 1],64,"Name","conv1_2","Padding",[1 1 1 1],"WeightL2Factor",0)
reluLayer("Name","relu1_2")
maxPooling2dLayer([2 2],"Name","pool1")
convolution2dLayer([3 2],128,"Name","conv2_1","Padding",[1 1 1 1],"WeightL2Factor",0)
reluLayer("Name","relu2_1")
convolution2dLayer([2 2],128,"Name","conv2_2","Padding",[1 1 1 1],"WeightL2Factor",0)
reluLayer("Name","relu2_2")
maxPooling2dLayer([2 2],"Name","pool2")
convolution2dLayer([2 2],64,"Name","conv3_1","Padding",[1 1 1 1],"WeightL2Factor",0)
reluLayer("Name","relu3_1")
convolution2dLayer([3 3],32,"Name","conv3_2","Padding",[1 1 1 1],"WeightL2Factor",0)
reluLayer("Name","relu3_2")
convolution2dLayer([3 3],2,"Name","conv3_3","Padding",[1 1 1 1],"WeightL2Factor",0)
reluLayer("Name","F")];
layers2 = [
sequenceInputLayer([5 1 2],"Name","alpha")
alphaMultiplyF("ComplexMultiply")
];
net=dlnetwork(layers1);
net=addLayers(net,layers2);
net=connectLayers(net,"F","ComplexMultiply/F");
net=initialize(net);
function [loss,gradients,state] = modelLoss(net,beta,alpha,T)
% Forward data through network.
[Y,state] = forward(net,beta,alpha);
% Calculate cross-entropy loss.
loss = mse(Y,T);
% Calculate gradients of loss with respect to learnable parameters.
gradients = dlgradient(loss,net.Learnables);
end

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Answers (1)

arushi
arushi on 10 Sep 2024
When dlgradient returns zeros for all gradients, it usually indicates that the loss function's gradient with respect to the network parameters is zero everywhere. This can happen for a few reasons, including issues with the network architecture, the loss function, the data, or even how the gradients are being calculated. Here are a few steps you can take to debug the issue:
  • Inspect Learnables: Check net.Learnables to ensure it contains the parameters you expect.
  • Test Custom Layer: If possible, isolate and test your custom layer (alphaMultiplyF) to ensure it correctly computes forward and backward passes.
  • Simplify the Model: Temporarily simplify your model to a minimal version that should be capable of learning (e.g., remove some layers). This can help identify if a specific part of the network is causing the issue.
  • Check Outputs: Before calculating the loss, inspect the outputs of the network (Y) to ensure they're reasonable and not all zeros or NaNs.
Hope it helps!

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