Binary matrix incrementer speed

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Vitor Frade
Vitor Frade on 13 Aug 2012
Hello,
I need to do a brute-force simulation which has large (350x2688000) matrices.
for this, I built the following function in order to generate each possibility. But still, the code is too slow. I'm wondering if anybody could give me any hints in order to make them faster. The disp functions are only for testing
function increment (m,n)
M=false(m,n);
while max(max(M~=true(m,n)))
if M==zeros
Mmu=M;
disp(M)
end
for a=1:m
for b=1:n
if a==1&&b==1&&M(a,b)
M(a,b)=false;
elseif a==1&&b==1&&~M(a,b)
M(a,b)=true;
elseif b==1&&~M(a-1,n)&&Mmu(a-1,n)&&~M(a,b)
M(a,b)=true;
elseif b==1&&~M(a-1,n)&&Mmu(a-1,n)&&M(a,b)
M(a,b)=false;
elseif b==1
continue
elseif ~M(a,b-1)&&Mmu(a,b-1)&&~M(a,b)
M(a,b)=true;
elseif ~M(a,b-1)&&Mmu(a,b-1)&&M(a,b)
M(a,b)=false;
end
end
end
Mmu=M;
disp(M)
end
Thanks for your help!
--EDIT--
I dropped this way of coding due to the size of matrices involved, thanks anyway!
  4 Comments
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Vitor Frade
Vitor Frade on 13 Aug 2012
Hey, actually it is ~all(M(:)), thanks, already reviewed.
Matt Fig
Matt Fig on 13 Aug 2012
What are the m,n range you are interested in?

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Answers (2)

Teja Muppirala
Teja Muppirala on 13 Aug 2012
You should be able to do it faster by calculating the matrices all at once and storing the result, instead of doing it one by one:
m = 2;
n = 3;
d = (0:(2^(m*n)-1));
M = rem(floor(pow2(0:-1:1-(m*n))'*d),2);
permute(reshape(M,n,m,[]),[2 1 3])
  1 Comment
Vitor Frade
Vitor Frade on 13 Aug 2012
Hi, thanks for your help, that is how I started, the problem is that as d gets larger, it looses significance and doesn't output all matrices.

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Matt Fig
Matt Fig on 13 Aug 2012
You did not answer my question above, but here is another method. This produces the matrices in a different order than your code but much faster for, say m=n=5.
Note that this code uses npermutek, found on the FEX.
F = logical(npermutek([1 0],n));
G = npermutek(single(1:size(F,1)),m);
for ii = 1:2^(m*n)
M = F(G(ii,:),:); % The M's you need
disp(M)
end
  3 Comments
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Matt Fig
Matt Fig on 13 Aug 2012
Yes, 2^94080000 is a lot of matrices to generate! Good luck on your project.
Teja Muppirala
Teja Muppirala on 13 Aug 2012
Vitor, do you realize that if m = 350 and n = 268800, the number of combinations is SOOOOO huge (2^(350*268800)) that it would be impossible to generate all of them, even with the fastest supercomputer in the world? In fact anything much greater than about m = 5 and n = 5, starts to get very large, very fast. If you are trying to generate possible solutions for a problem, you might want to take a look at another more tractable approach, for example, as you mention genetic algorithms.

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