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I have an njxnj matrix made up of nxn matrices. I want to extract the diagonal j blocks of nxn matrices. i.e. I want to extract the diagonal (for n = 2, j = 4):

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What would be the most efficient way of doing this?

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To index the elements you can use blkdiag to create a corresponding mask.

%your parameters
n=2
j=4
%some example matrix
M=magic(n*j);
%create the input for blkdiag, j matrices of size n
h=repmat({true(n)},j,1)
%use blkdiag to select the elements
M(logical(blkdiag(h{:})))
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    Very good answer! I'd throw in a final reshape(M(...),n,n,[]), but obviously that's not very hard to figure out. – Andras Deak Dec 8 '15 at 0:58
  • @AndrasDeak Also, if I want to take the product of these diagonal matrices is there anyway to apply the prod function to the output of reshape? – user3701257 Dec 8 '15 at 1:07
  • @user3701257 if you mean element-wise product, then yes, you can call prod(newM,3) if newM is your reshaped [n x n x j] matrix. If you need a matrix product, that's a different issue, and much more difficult (you'll probably need a loop for that). – Andras Deak Dec 8 '15 at 1:11
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    @AndrasDeak yes I require the matrix product. So the best way to tackle that would be: P=eye(n);for k=1:size(newM, 3); P = newM(:,:,k)*P;end – user3701257 Dec 8 '15 at 1:14
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    @user3701257 not necessarily the best, but a straightforward one, yes. There are probably questions about this on SO, and I also found a MEX function on the FEX. – Andras Deak Dec 8 '15 at 1:16
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For large j, this answer of @Daniel becomes slow. I would instead recommend using linear indices of block diagonal.

    n=2;
    j=4;
    %some example matrix
    M=magic(n*j);
    linIndices = (0:n*((n*j)+1):n*((n*j)+1)*(j-1))+reshape((1:n)'+n*j*(0:n-1),[],1);
    newM = reshape(M(linIndices),n,n,[]);

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