# Converting nested loop for MATLAB's parfor

I just recently started using MATLAB's Parallel Computing Toolbox for a pretty lengthy code I have.

Anyways, the just of it is that I have to loop over a ton of different elements on a mesh (`nElem` in total) and each computation is independent of all the others. `Aglobal` is the global matrix and for each iteration, a smaller local matrix `Klocal` is computed and inserted into a different spot in `Aglobal`. In principle, this loop should be able to be distributed, but I know it won't work as it is now.

If you want some context, this is a finite element assembly routine where the local matrices are the element level matrices and absolutely do not depend on any of the other local matrices.

Does anyone see a smarter way to do this?

On second thought, maybe I'm not understanding how parfor works. So say two iterations are being run in parallel. The first one finishes and adds its contribution to the global matrix. After the second one finishes, does it recognize that the first iteration added a contribution to the matrix? This solution seems to suggest so but I have no idea how to implement something like it: http://www.mathworks.com/matlabcentral/answers/52005-how-to-transform-these-three-nested-for-loops-into-a-parfor-loop

Anyways, I have a loop like this:

``````NLoc = 3;

kk = 0;

Klocal = zeros(NLoc);
blocal = zeros(NLoc,1);

Aglobal = zeros(NLoc*nElem);
bglobal = zeros(NLoc*nElem,1);

for k=1:nElem

Klocal = function1(nElem,k);

blocal = function2(nElem,k);

for i=1:NLoc
ie = i+kk;

bglobal(ie) = bglobal(ie) + blocal(i);

for j=1:NLoc

je = j+kk;
Aglobal(ie,je) = Aglobal(ie,je) + Klocal(i,j);

end

end

kk = NLoc*k;

end
``````
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