# Inverse a matrix in python

I want to inverse a matrix Q+1e-5*np.eye(d) (size d X d) and use the following code to get the approximate result.

Q = X.dot(X.T) # X is a large sparse matrix, Q is singular
P = np.linalg.inv(Q+1e-5*np.eye(d))

But I got this:

P=[[ nan  nan  nan ...,  nan  nan  nan]
[ nan  nan  nan ...,  nan  nan  nan]
[ nan  nan  nan ...,  nan  nan  nan]
...,
[ nan  nan  nan ...,  nan  nan  nan]
[ nan  nan  nan ...,  nan  nan  nan]
[ nan  nan  nan ...,  nan  nan  nan]]

Do anyone have any idea?

• You want to invert a singular matrix? Commented Nov 9, 2016 at 23:25
• You know that a singular matrix doesn't have an inverse, by definition, right? Commented Nov 9, 2016 at 23:26
• (Do you mean you are trying to solve a system of simultaneous linear equations given by a singular matrix?) Commented Nov 9, 2016 at 23:27
• I know it is not possible to inverse a singular matrix. But I don't think Q+1e-5*np.eye(d) can be singular too. I am just wondering why the result is NaN. Commented Nov 10, 2016 at 2:04