Multiple nested for loops for machine learning model hyperparameters

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Isabelle Museck
Isabelle Museck el 2 de Nov. de 2024 a las 18:13
Comentada: Isabelle Museck el 3 de Nov. de 2024 a las 17:57
I have a neural network and I am trying to build a nested loop to test multiple combinations of the follwoing two hyperparameters: filterSize and numBlocks. I have the code calculate the RMSE for each of the trials using leave out one vlaidation and then take the average overall. I am trying to test the follwing combination of filterSizes: 2, 3 ,4 and the number of Blocks: 3, 4; therefore, there should be a total of 6 avgRMSE values outputed. I am, however, getting an empty matrix with only 2 RMSE values, any suggestions on whats wrong with my code and how this can be fixed?
nfilterSize = [2 3 4];
nnumBlocks = [3 4];
numFilters = 80;
droupoutFactor = 0.005;
numFeatures = 8
%Iterate each combination of hyperparameters
for j =1:length(nfilterSize)
filterSize = nfilterSize(j);
for k = length(nnumBlocks)
numBlocks = nnumBlocks(k);
% Neural Network
net = dlnetwork;
layer = sequenceInputLayer(numFeatures,Normalization="rescale-symmetric",Name="input");
net = addLayers(net,layer);
outputName = layer.Name;
for i = 1:numBlocks
dilationFactor = 2^(i-1);
layers = [
convolution1dLayer(filterSize,numFilters,DilationFactor=dilationFactor,Padding="causal",Name="conv1_"+i)
layerNormalizationLayer
spatialDropoutLayer(Name= "spat_drop_"+i,Probability=droupoutFactor)
% Add and connect layers.
net = addLayers(net,layers);
net = connectLayers(net,outputName,"conv1_"+i);
layers = [
fullyConnectedLayer(1)];
net = addLayers(net,layers);
net = connectLayers(net,outputName,"fc");
% Train the network
RMSEtot = 0;
for h = 1:length(table) %iterate over all data points
validationdataX = table(h);
validationdataY = velocity(h);
%Exclude the current index (i) for training
trainingIndices = setdiff(1:length(table),h);
traningdataX = table(trainingIndices);
trainingdataY = velocity(trainingIndices);
options = trainingOptions("adam", ...
'MaxEpochs', 60, ...
'MiniBatchSize', 1, ...
'InputDataFormat', "CTB", ...
'Metrics', "rmse", ...
'Verbose', 0);
net = trainnet(traningdataX,trainingdataY,net,"mse",options);
Predval = minibatchpredict(net,validationdataX,InputDataFormats="CTB");
TrueVal = validationdataY;
TrueValue = cell2mat(TrueVal);
Predvalue = {Predval};
PredictedValue = cell2mat(Predvalue);
RMSE = rmse(PredictedValue,TrueValue)
RMSEtot = RMSEtot + RMSE;
end
%take average of all iterations after leave-out-one-validation
SumRMSE = RMSEtot;
AvgRMSE(j,k) = SumRMSE/(length(table))
end
end

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Walter Roberson
Walter Roberson el 2 de Nov. de 2024 a las 18:31
for j =1:length(nfilterSize)
%j is active at this level
for k = length(nnumBlocks)
%j and k are active at this level
for i = 1:numBlocks
%j and k and i are active at this level
for h = 1:length(table) %iterate over all data points
%j and k and i and h are active at this level
end
%j and k and i are active at this level
end
%j and k are active at this level
end
%j is active at this level
You are missing an end matching for j
Possibly you have mismatched for/end structures in your actual code.
  2 comentarios
Isabelle Museck
Isabelle Museck el 3 de Nov. de 2024 a las 13:36
I made sure that all the loops have matching end statments and now I am getting a 3x2 matrix for the AvgRMSE but the first column is only zeros as shown here:
I think there is an issue with my number of blocks loop or the placement of the end statements, but it is not clculating AvgRMSE values for the combination of numBlocks= 3 and filterSize = 2,3, and 4. Any thoughts on how to fix this in my code to get a 3x2 matrix with AvgRMSE outputs for all 6 of the combinations of hyperparameters?
nfilterSize = [2 3 4];
nnumBlocks = [3 4];
numFilters = 80;
droupoutFactor = 0.005;
numFeatures = 60
for j =1:length(nfilterSize)
filterSize = nfilterSize(j)
for k = length(nnumBlocks)
numBlocks = nnumBlocks(k)
net = dlnetwork;
layer = sequenceInputLayer(numFeatures,Normalization="rescale-symmetric",Name="input");
net = addLayers(net,layer);
outputName = layer.Name;
for i = 1:numBlocks
dilationFactor = 2^(i-1)
layers = [
convolution1dLayer(filterSize,numFilters,DilationFactor=dilationFactor,Padding="causal",Name="conv1_"+i)
layerNormalizationLayer
spatialDropoutLayer(Name= "spat_drop_"+i,Probability=droupoutFactor)
reluLayer
additionLayer(2,Name="add_"+i)];
% Add and connect layers.
net = addLayers(net,layers);
net = connectLayers(net,outputName,"conv1_"+i);
% Skip connection.
if i == 1
% Include convolution in first skip connection.
layer = convolution1dLayer(1,numFilters,Name="convSkip");
net = addLayers(net,layer);
net = connectLayers(net,outputName,"convSkip");
net = connectLayers(net,"convSkip","add_" + i + "/in2");
else
net = connectLayers(net,outputName,"add_" + i + "/in2");
end
% Update layer output name.
outputName = "add_" + i;
end
layers = [
fullyConnectedLayer(1)];
net = addLayers(net,layers);
net = connectLayers(net,outputName,"fc");
% Train the network
RMSEtot = 0;
for h = 1:length(table) %iterate over all data points
validationdataX = table(h);
validationdataY = velocity(h);
%Exclude the current index (i) for training
trainingIndices = setdiff(1:length(table),h);
traningdataX = table(trainingIndices);
trainingdataY = velocity(trainingIndices);
options = trainingOptions("adam", ...
'MaxEpochs', 60, ...
'MiniBatchSize', 1, ...
'InputDataFormat', "CTB", ...
'Metrics', "rmse", ...
'Verbose', 0);
net = trainnet(traningdataX,trainingdataY,net,"mse",options);
Predval = minibatchpredict(net,validationdataX,InputDataFormats="CTB");
TrueVal = validationdataY;
TrueValue = cell2mat(TrueVal);
Predvalue = {Predval};
PredictedValue = cell2mat(Predvalue);
RMSE = rmse(PredictedValue,TrueValue)
RMSEtot = RMSEtot + RMSE;
end
SumRMSE = RMSEtot;
AvgRMSE(j,k) = SumRMSE/(length(IMU_table))
end
end

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