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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.
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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 =
>> log2(maxSize)
ans =

and on a 64-bit system, it gives

>> [~,maxSize] = computer
maxSize =
>> log2(maxSize)
ans =

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 
        % I have to leave this up to you...


% 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 :)

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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
@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.

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