What does the error Numpy error: Matrix is singular mean specifically (when using the linalg.solve function)? I have looked on Google but couldn't find anything that made it clear when this error occurs.

  • If you have a singular matrix, then it might indicate that you have some mistake in your matrix filling routine. If your matrix really is singular, then you may get some useful information about it using singular value decomposition. However in this case you need to have a good understanding of linear algebra and numerical computing concepts. – DaveP Dec 14 '12 at 4:56

A singular matrix is one that is not invertible. This means that the system of equations you are trying to solve does not have a unique solution; linalg.solve can't handle this.

You may find that linalg.lstsq provides a usable solution.

  • By "no unique solution" do you mean it may have multiple solutions? – KaliMa Dec 10 '12 at 6:37
  • @KaliMa That is what I mean. – Michael J. Barber Dec 10 '12 at 7:28
  • @MichaelJBarber Is there a way to get it to return all possible solutions? Is that what linalg.lstsq does? – KaliMa Dec 10 '12 at 14:07
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    @KaliMa When a system of equations is singular, it either has infinitely many solutions, or none - so no, in general you can't retrieve them all. Linalg.lstsq just returns one of those solutions - even if there is none: in that case, it returns the 'best' solution (in a least squares sense); but then, too, there are infinitely many other 'best' solutions. For further reading: en.wikipedia.org/wiki/System_of_linear_equations – Rolf Bartstra Dec 10 '12 at 18:32
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    @KaliMa You can use a try: ... except: ... block to catch the error; to deal with the singularity, you have to come up with a solution yourself ... ;-) Or use lstsq: that won't crash, and leaves you at least with one solution ... – Rolf Bartstra Dec 10 '12 at 18:43

This function inverts singular matrices as well using numpy.linalg.lstsq:

def inv(m):
    a, b = m.shape
    if a != b:
        raise ValueError("Only square matrices are invertible.")

    i = np.eye(a, a)
    return np.linalg.lstsq(m, i)[0]

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