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My goal is to combine many sparse matrices together to form one large sparse matrix. The only two ideas I've been able to think of are (1) create a large sparse matrix and overwrite certain blocks, (2) create the blocks individually use vertcat to form my final sparse matrix. However,I've read that overwriting sparse matrices is quite inefficient, and I've also read that vertcat isn't exactly computationally efficient. (I didn't both to consider using a for loop because of how inefficient they are).

What other alternatives do I have then?

Edit: By combine I mean "gluing" matrices together (vertically), the elements don't interact.

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What happens if you just add them together? More specifically - what are the dimensions of your matrices, and what does a "combined" matrix look like in your books? Can you give a toy example? –  Floris Mar 14 '13 at 20:43
    
@Floris dimensions can range from 2x2 to 2^18 x 2^18 or whatever the maximum that Matlab can handle for my script. I think an error generates somewhere around 2^18. A toy example would be anything arbitrary. The only thing that's fixed in my matrix is the first and last block, which are speye, but everything in between varies (though their sizes are fixed) –  AlanH Mar 14 '13 at 21:18
    
@Floris also I couldn't add them b/c I couldn't figure out a global index that would work for all the matrices. I just saw your post though, so I don't think that will be problem. –  AlanH Mar 14 '13 at 21:19
2  
I guess my question is "how do you intend to combine". When you combine a 10x10 and a 10x10 is the result 10x10 or 20x10? –  Floris Mar 14 '13 at 21:19
    
@Floris ah I see. Sorry, 10x10 with, say a 5x10, would be 15x10. The elements don't interact. –  AlanH Mar 14 '13 at 21:21

1 Answer 1

up vote 5 down vote accepted

According to the matlab help, you can "disassemble" a sparse matrix with

[i,j,s] = find(S);

This means that if you have two matrices S and T, and you want to (effectively) vertcat them, you can do

[is, js, ss] = find(S);
[it, jt, st] = find(T);
ST = sparse([is; it + size(S,1)], [js; jt], [ss; st]);

Not sure if this is very efficient... but I'm guessing it's not too bad.

EDIT: using a 2000x1000 sparse matrix with a density of 1%, and combining it with another that has density of 2%, the above code ran in 0.016 seconds on my machine. Just doing [S;T] was 10x faster. What makes you think vertical concatenation is slow?

EDIT2: assuming you need to do this with "many" sparse matrices, the following works (this assumes you want them all "in the same place"):

m = 1000; n = 2000; density = 0.01;
N = 100;
Q = cell(1, N);
is = Q;
js = Q;
ss = Q;
numrows = 0; % keep track of dimensions so far

for ii = 1:N
    Q{ii} = sprandn(m+ii, n-jj, density); % so each matrix has different size
    [a b c] = find(Q{ii});
    sz = size(Q{ii}); 
    is{ii} = a' + numrows; js{ii}=b'; ss{ii}=c'; % append "on the corner"
    numrows = numrows + sz(1); % keep track of the size
end

tic
ST = sparse([is{:}], [js{:}], [ss{:}]);
fprintf(1, 'using find takes %.2f sec\n', toc);

Output:

using find takes 0.63 sec

The big advantage of this method is that you don't need to have the same number of columns in your individual sparse arrays... it will all get sorted out by the sparse command which will simply consider the missing columns to be all zeros.

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So are you still suggesting to use vertcat or find? –  AlanH Mar 14 '13 at 21:20
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The find method (and the implicit horzcat I am doing with [is{:}] ) seems to be quite efficient. You might ask yourself how you generated the original (source) sparse matrices; if you had them in the (i,j,s) format to begin with, you might never need the intermediate find step... –  Floris Mar 14 '13 at 21:23
    
In the first line of the for loop, do you mean n-ii? jj isn't defined? –  AlanH Mar 14 '13 at 21:50
    
Yes of course - typo. Just wanted to make matrices of different sizes, to prove that I could... I could not copy/paste from the computer on which I was running matlab (long story) so had to type it out. My bad. –  Floris Mar 15 '13 at 1:23

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