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I need to find out if matrix is positive definite. My matrix is numpy matrix. I was expecting to find any related method in numpy library, but no success. I appreciate any help.

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2 Answers 2

up vote 6 down vote accepted

You can also check if all the eigenvalues of matrix are positive, if so the matrix is positive definite:

import numpy as np

def is_pos_def(x):
    return np.all(np.linalg.eigvals(x) > 0)
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You could use np.linalg.eigvals instead, which only computes the eigenvalues. Even then, it's much slower than @NPE's approach (3x for 10x10 matrices, 40x for 1000x1000). –  jorgeca Apr 29 '13 at 10:09
    
@jorgeca, I updated my answer to reflect your suggestion, thank you. Thanks for the info about the time as well. –  Akavall Apr 29 '13 at 13:14
3  
<pedantic>It is not true in general that all positive eigenvalues implies positive definiteness, unless you know that the matrix is symmetric (real case) or Hermitian (complex case). For example, A = array([[1, -100],[0, 2]]) is not positive definite. Some might include symmetric or Hermitian as part of the definition of "positive definite", but that is not universal.</pedantic> –  Warren Weckesser Apr 29 '13 at 20:05
    
@WarrenWeckesser Oops, that's right, not pedantic! In fact, checking symmetry is also needed if using np.linalg.cholesky (it doesn't check it and may return a wrong result, as your example also shows). I wonder how checking whether a non symmetric matrix is positive definite can be done numerically... –  jorgeca May 2 '13 at 23:34
    
You can do np.all(x-x.T==0) to check for symmetry –  shinjin Jan 31 at 0:04

You could try computing Cholesky decomposition (numpy.linalg.cholesky). This will raise LinAlgError if the matrix is not positive definite.

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Thank you very much, not vary elegant but works! –  Zygimantas Apr 28 '13 at 19:21
    
This should be substantially more efficient than the eigenvalue solution. –  MRocklin Jul 22 '13 at 16:18

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