I'm trying to figure out if there is a faster way to compute all the eigenvalues and eigenvectors of a very big and sparse adjacency matrix than using scipy.sparse.linalg.eigsh As far as I know, this methods only uses the sparseness and symmetry attributes of the matrix. An adjacency matrix is also binary, what makes me think there is a faster way to do it.

I created a random 1000x1000 sparse adjacency matrix, and compared between several methods on my x230 ubuntu 13.04 laptop:

  • scipy.sparse.linalg.eigs: 0.65 seconds
  • scipy.sparse.linalg.eigsh: 0.44 seconds
  • scipy.linalg.eig: 6.09 seconds
  • scipy.linalg.eigh: 1.60 seconds

With the sparse eigs and eigsh, I set k, the number of the desired eigenvalues and eigenvectors, to be the rank of the matrix.

The problem starts with bigger matrices - on a 9000x9000 matrix, it took scipy.sparse.linalg.eigsh 45 minutes!

  • 1
    scipy.sparse.linalg.eigsh uses ARPACK. This question is more of a math than programming question, so you may get better answers by asking on scicomp.stackexchange.com whether you can do something more clever than ARPACK
    – pv.
    May 24 '13 at 9:00
  • Also, try a literature search via e.g. Google Scholar.
    – pv.
    May 24 '13 at 9:07
  • 4
    This question has been cross-posted to scicomp. I recommend that we handle it over there. May 24 '13 at 23:23

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