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I'm trying to get the two smallest eigenvectors of a matrix:

[v,c]=eigs(lap,2,'sm');

The result v is "correct" ~66% of time. When I say correct I mean "looks right" in terms of the problem I am trying to solve, of course. The other part of the time I get different vectors.

I know eigs uses a numerical solver, and that it's initial guess is random, so that explains that. What bothers me is according to matlab's documentation I see that the tolerance used as criteria to stop is set to eps initially, and I tried increasing opts.maxit=10000000;, but it doesn't appear to affect the results nor the run time, so I assume the tolerance is met before the maximum iteration number is reached.

What can I do to get consistent results? There's no problem in terms of computation time.

Please note that the matrix is very large and sparse, so I cannot work with eig, only with eigs

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a few questions: is c real or imaginary and are the results consitant. Also, can u elaborate of the solution being incorrect (provide some values). Remember that a property of eigenvectors is that if a is one, then so is -a –  Rasman Jun 4 '11 at 0:32
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To add to what Rasman said, eigenvectors are not necessarily unique as I demonstrate in this answer on a similarly themed question. –  r.m. Jun 4 '11 at 0:49
    
IIRC from my linear algebra days, you can normalize the eigenvectors first by making them unit vectors (dividing them by their length), and then multiplying them by multiplying each one by -1 if necessary to make its first nonzero element positive. This way, you should get the same vectors each time. –  Thomas Minor Jun 4 '11 at 2:29

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