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Below is my code for a neural network Forward propagation. I want to speed it up. As for loop takes time, Can any body help in correcting the code for speeding it up, like matlab says vectorzing etc. In this code i take receptive field of 4x4 each time from input of size 19x19, than multiply each pixel with 4x4 of weights (net.w{layer_no}(u,v) of size 19x19). You can also say it is a dot product of the two. I didnt did directly dot product of two small matrices as there is a check of boundaries. It provides a 6x6 output saved in output in the end. I am not an experienced coder, so i did as much as i can. Can anybody guide me how to speed it up as it takes alot of time compare to Opencv. Will be thankful. Regards

    receptiveSize = 4;
    overlap= 1;
    inhibatory = 0;
    gap = receptiveSize-overlap;

    UpperLayerSize = size(net.b{layer_no}); % 6x6
    Curr_layerSize = size(net.w{layer_no}); % 19x19

    for u=1:UpperLayerSize(1)-1
        for v=1:UpperLayerSize(2)-1

            summed_value=0;
            min_u = (u - 1) * gap + 1;
            max_u = (u - 1) * gap + receptiveSize;
            min_v = (v - 1) * gap + 1;
            max_v = (v - 1) * gap + receptiveSize;
            for i = min_u : max_u
                for j = min_v : max_v
                    if(i>Curr_layerSize(1) || j>Curr_layerSize(2))
                        continue;
                    end
                    if(i<1 || j<1)
                        continue;
                    end
                    summed_value = summed_value + input{layer_no}.images(i,j,sample_ind) * net.w{layer_no}(i,j);
                 end
            end
            summed_value = summed_value + net.b{layer_no}(u,v);
            input{layer_no+1}.images(u,v,sample_ind) = summed_value;
        end
    end
    temp = activate_Mat(input{layer_no+1}.images(:,:,sample_ind),net.AF{layer_no});
    output{layer_no}.images(:,:,sample_ind) = temp(:,:);
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1  
just a small comment: it is best not to use i and j as variable names in Matlab. –  Shai Aug 14 '14 at 9:06
    
Ok, than you mean anything else than i and j? and why not i and j? –  khan Aug 14 '14 at 9:26
    
Ohh ok, i didnt noticed that.... –  khan Aug 14 '14 at 10:05
    
Could you provide some matrices that you are using? –  m_power Aug 14 '14 at 13:30
    
@m_power any two matrices of equal sizes for example a=randn(19,19); b=randn(19,19); –  khan Aug 14 '14 at 15:01

1 Answer 1

How about replacing the inner loops (loop over i and loop over j) to something like:

ii = max( 1, min_u ) : min( max_u, Curr_layerSize(1) );
jj = max( 1, min_v ) : min( max_v, Curr_layerSize(2) );
input{layer_no+1}.images(u,v,sample_ind) = ...
    reshape( input{layer_no}.images(ii,jj,sample_ind), 1, [] ) * ...
    reshape( net.w{layer_no}(ii,jj), [], 1 ) + ...
    net.b{layer_no}(u,v); %// should this term be added rather than multiplied?
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2  
Additional improvements would be to take min and max outside the loops: min_u = [0:ULS(1)-2]*gap;max_u = min_u + receptiveSize;min_u = min_u + 1; min_v = min_u and max_v = max_u (if one can guarantee ULS(1) = ULS(2) as mentioned in the question, generalizing would be straightforward though). And also max( 1, min_u ) = min_u always and min( max_u, Curr_layerSize(1) ) can be determined prior the loops. The same for v. –  PetrH Aug 14 '14 at 13:44
    
yes the last term should be added. let me try and see whether result is same or different –  khan Aug 14 '14 at 13:45
    
Instead of that, I did like this, as that multiplication was having some problem, as i needed sum of all in the end, for all the dot multiplication, so i did some thing like this. As in my code for this situation this can work as well. And tried to use your idea. When i check time, than there is about 4 second reduction using this. input.images{layer_no+1}(u,v,sample_ind) = sum(sum(input.images{layer_no}(min_u:max_u,min_v:max_v,sample_ind) .* ... net.w{layer_no}(min_u:max_u,min_v:max_v))) + ... net.b{layer_no}(u,v); –  khan Aug 14 '14 at 14:29
1  
No your code is correct, result is now the same. Let me just recheck time taken. Wait –  khan Aug 14 '14 at 14:36
1  
@khan "i didnt understand what is ULS(1) means" ULS meant UpperLayerSize I wanted to shorten the already long comment. –  PetrH Aug 14 '14 at 18:21

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