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I have to create a matlab matrix that is much bigger that my phisical memory, and i want to take advantage of the sparsity.

This matrix is really really sparse [say N elements in an NxN matrix], and my ram is enought for this. I create the matrix in this way:


but it goes out of memory. Do you know the right way to create this matrix?

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up vote 7 down vote accepted

zeros(N) is creating an NxN matrix, which is not sparse, hence you are running out of memory. Your code is equivalent to

temp = zeros(N)
A = sparse(temp)

Just do sparse(N,N).

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Thank you.Other people wrote me to use A=spalloc(n,n,numelements) – BigG May 25 '11 at 12:04

I'd actually recommend the full syntax of sparse([],[],[],N,N,N).

It's useful to preallocate if you know the maximum number of nonzero elements as otherwise you'll get reallocs when you insert new elements.

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Creating an all zeros sparse matrix, and then modifying it is extremely inefficient in matlab. Instead of doing something like:

   A = sparse(N,N)  % or even A = sparse([],[],[],N,N,N) 
   A(1:N,7) = 1:N

It is much more efficient to construct the matrix in triplet form. That is, construct the column and row indices and the nonzero entries first, then form the matrix. For example,

   i = 1:N;
   j = 7*ones(1,N); 
   x = 1:N;
   A = sparse(i,j,x,N,N);
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Can you comment on what "extremely inefficient" means, and perhaps also why it is so? – Steve Heim Mar 19 '14 at 12:50
zeros(N) will create a dense matrix of all zeros stored in double precision format. This will consume N*N*(8 bytes) of memory. Calling sparse(A) will then remove all zero entries from a matrix. So you are creating a bunch of zeros in memory and then immediately remove them. – codehippo Apr 3 '14 at 15:57

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