Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Please suggest how to sort out this issue:

nNodes = 50400;
adj = sparse(nNodes,nNodes);

adj(sub2ind([nNodes nNodes], ind, ind + 1)) = 1; %ind is a vector of indices
??? Maximum variable size allowed by the program is exceeded.
share|improve this question
2  
No problems here unless length(ind) is fantastically huge...How large is your ind? –  Rody Oldenhuis Nov 8 '12 at 4:46
    
It is 1x50148. I also converted the indices into 1d and did the following: >>adj(ind1d) = 1; still getting the same error " ??? Maximum variable size allowed by the program is exceeded." –  Swagatika Nov 8 '12 at 5:57

2 Answers 2

I think the problem is 32/64-bit related. If you have a 32 bit processor, you can address at most

2^32 = 4.294967296e+09

elements. If you have a 64-bit processor, this number increases to

2^64 = 9.223372036854776e+18

Unfortunately, for reasons that are at best vague to me, Matlab does not use this full range. To find out the actual range used by Matlab, issue the following command:

[~,maxSize] = computer

On a 32-bit system, this gives

>> [~,maxSize] = computer
maxSize =
    2.147483647000000e+09
>> log2(maxSize)
ans =
    3.099999999932819e+01 

and on a 64-bit system, it gives

>> [~,maxSize] = computer
maxSize =
    2.814749767106550e+14
>> log2(maxSize)
ans =
    47.999999999999993

So apparently, on a 32-bit system, Matlab only uses 31 bits to address elements, which gives you the upper limit.

If anyone can clarify why Matlab only uses 31 bits on a 32-bit system, and only 48 bits on a 64-bit system, that'd be awesome :)

Internally, Matlab always uses linear indices to access elements in an array (it probably just uses a C-style array or so), which implies for your adj matrix that its final element is

finEl = nNodes*nNodes = 2.54016e+09

This, unfortunately, is larger than the maximum addressable with 31 bits. Therefore, on the 32-bit system,

>> adj(end) = 1;
??? Maximum variable size allowed by the program is exceeded.

while this command poses no problem at all on the 64-bit system.

You'll have to use a workaround on a 32-bit system:

nNodes = 50400;

% split sparse array up into 4 pieces
adj{1,1} = sparse(nNodes/2,nNodes/2);    adj{1,2} = sparse(nNodes/2,nNodes/2);
adj{2,1} = sparse(nNodes/2,nNodes/2);    adj{2,2} = sparse(nNodes/2,nNodes/2); 

% assign or index values to HUGE sparse arrays
function ret = indHuge(mat, inds, vals)

    % get size of cell
    sz = size(mat);

    % return current values when not given new values
    if nargin < 3
        % I have to leave this up to you...

    % otherwise, assign new values 
    else
        % I have to leave this up to you...

    end
end    

% now initialize desired elements to 1
adj = indHuge(adj, sub2ind([nNodes nNodes], ind, ind + 1),  1);

I just had the idea to cast all this into a proper class, so that you can use much more intuitive syntax...but that's a whole lot more than I have time for now :)

share|improve this answer
    
Thanks for explaining what goes on the system. Yes, my system is 32-bit system, and I am not able to access adj the last element : >> adj(nNodes * nNodes) ??? Maximum variable size allowed by the program is exceeded. –  Swagatika Nov 8 '12 at 6:49
    
@Swagatika: I'll include a workaround in the next edit. Refresh in 5 mins... :) –  Rody Oldenhuis Nov 8 '12 at 6:51
    
I could figure out how to create the sparse matrix, please check my answer below and let me know if you have a more optimized answer. Still accessing the last elements is a concern here... –  Swagatika Nov 8 '12 at 6:53
    
@Swagatika: Here you go, have to leave now, I hope you get the idea... –  Rody Oldenhuis Nov 8 '12 at 7:06
1  
@Swagatika: oh wow...in that case, forget all I said about Matlab using linear indices internally; I think this is worthy of a bug report, as it is very unintuitive and undesired behavior. adj(end)=1 does not work, while adj(end,end)=1; (which should be equivalent) works without any hickups! –  Rody Oldenhuis Nov 9 '12 at 8:56
up vote 2 down vote accepted
adj = sparse(ind, ind + 1, ones(size(ind)), nNodes, nNodes, length(ind));

This worked fine...

And, if we have to access the last element of the sparse matrix, we can access by adj(nNodes, nNodes), but adj(nNodes * nNodes) throws error.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.