# How to accelerate matlab code?

I'm using matlab to implement a multilayer neural network. In the code I represent

the value of each node AS netValue{k}

the weight between layer k and k + 1 AS weight{k}

etc.

Since these data is three-dimensional, I have to use cell to hold a 2-D matrix to enable matrix multiply.

So it becomes really really slow to train the model, which I expect to have resulted from the usage of cell.

Can anyone tell me how to accelerate this code? Thanks

``````clc;
close all;
clear all;

input = [-2 : 0.4 : 2;-2:0.4:2];
ican = 4;

depth = 4;  % total layer - 1, by convension
[featureNum , sampleNum] = size(input);
levelNum(1) = featureNum;
levelNum(2) = 5;
levelNum(3) = 5;
levelNum(4) = 5;
levelNum(5) = 2;

weight = cell(0);
for k = 1 : depth
weight{k} = rand(levelNum(k+1), levelNum(k)) - 2 * rand(levelNum(k+1) , levelNum(k));
threshold{k} = rand(levelNum(k+1) , 1) - 2 * rand(levelNum(k+1) , 1);
end

runCount = 0;
sumMSE = 1; % init MSE
minError = 1e-5;

afa = 0.1; % step of "gradient ascendence"

% training loop
while(runCount < 100000 & sumMSE > minError)
sumMSE = 0; % sum of MSE
for i = 1 : sampleNum % sample loop
netValue{1} = input(:,i);

for k = 2 : depth
netValue{k} = weight{k-1} * netValue{k-1} + threshold{k-1}; %calculate each layer
netValue{k} = 1 ./ (1 + exp(-netValue{k})); %apply logistic function
end
netValue{depth+1} = weight{depth} * netValue{depth} + threshold{depth}; %output layer

e = 1 + sin((pi / 4) * ican * netValue{1}) - netValue{depth + 1}; %calc error
assistS{depth} = diag(ones(size(netValue{depth+1})));
s{depth} = -2 * assistS{depth} * e;
for k = depth - 1 : -1 : 1
assistS{k} = diag((1-netValue{k+1}).*netValue{k+1});
s{k} = assistS{k} * weight{k+1}' * s{k+1};
end

for k = 1 : depth
weight{k} = weight{k} - afa * s{k} * netValue{k}';
threshold{k} = threshold{k} - afa * s{k};
end

sumMSE = sumMSE + e' * e;
end
sumMSE = sqrt(sumMSE) / sampleNum;
runCount = runCount + 1;
end

x = [-2 : 0.1 : 2;-2:0.1:2];
y = zeros(size(x));
z = 1 + sin((pi / 4) * ican .* x);
% test
for i = 1 : length(x)
netValue{1} = x(:,i);
for k = 2 : depth
netValue{k} = weight{k-1} * netValue{k-1} + threshold{k-1};
netValue{k} = 1 ./ ( 1 + exp(-netValue{k}));
end
y(:, i) = weight{depth} * netValue{depth} + threshold{depth};
end

plot(x(1,:) , y(1,:) , 'r');
hold on;

plot(x(1,:) , z(1,:) , 'g');

hold off;
``````
-
You need to preallocate your cell arrays! – Oleg Jun 21 '13 at 9:05
Thx. I think that's an important point. And I should follow other advice by the matlab IDE. – SolessChong Jun 21 '13 at 9:13

Have you used the `profiler` to find out what functions are actually slowing down your code? It shows what lines take the most time to execute.
`doc profile` would be a good start. Quick start: `profile on;` `my_code_here;` `profile viewer;` – Hugh Nolan Jun 21 '13 at 9:23