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I am currently facing a problem where I have been told that there is another alternative. Currently I am trying to add a set of stiffness matrix together without the use of FOR LOOPs. The code is currently written as so,

M1 = zeros(2*(E+1),2*(E+1)); % E is just a number of elements (ie a variable)
M2 = zeros(2*(E+1),2*(E+1));
for i = 2:2:2*(E+1);
    M2 = M2 + M1;
    M1 = zeros(2*(E+1),2*(E+1));
    M1(i-1:i+2,i-1:i+2) = me; % me is just another matrix that is a 4x4 and has constants.

I, however would like to make the code more efficient, since Matlab is good with Vector coding and not so with FOR LOOPS. Is there any suggestions as to how or which method can be used to change?

The initial matrix is a 4x4 and when added it becomes a 6x6 and added again becomes a 8x8 and so forth. But the matrix added together are all 4x4's but have to be shifted down 2 rows and across 2 columns.

Thanks in advance for those who have read this!

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This looks like Matlab. If so, please add Matlab to the tag, and you're more likely to get a lot more of the right kinds of eyeballs on it. –  Assad Ebrahim Aug 25 '12 at 19:27
... and while you're at it, definitely suggest coming up with a less cryptic title... (read it to yourself aloud and see whether it makes the problem clear) –  Assad Ebrahim Aug 25 '12 at 19:28
Right, this sounds quite strange. One of the rules of matrix addition is that the dimensions of the matrix don't change. Can you please write out carefully what it is you want to do? In Matlab, adding two matrices is easy. If their dimensions match, it is simply M1+M2. What is the problem? (If I use a bit of engineering knowledge, are you working with a high dimensional stiffness matrix that is mostly sparse except for the diagonal and perhaps the superdiagonal, and you're trying manipulate it using 4x4 submatrices?... ) Your post needs more clarification. –  Assad Ebrahim Aug 25 '12 at 19:34

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