Assume that I have an affinity matrix A and a diagonal matrix D. How can I compute the Laplacian matrix in Python with nympy?
L = D^(1/2) A D^(1/2)
Currently, I use L = D**(1/2) * A * D**(1/2). Is this a right way?
Thank you.
Assume that I have an affinity matrix A and a diagonal matrix D. How can I compute the Laplacian matrix in Python with nympy? L = D^(1/2) A D^(1/2) Currently, I use L = D**(1/2) * A * D**(1/2). Is this a right way? Thank you. 


Numpy allows you to exponentiate a diagonal matrix with positive elements directly:
However, it indeed does not allow you to exponentiate any matrix directly:
produces the TypeError that you have observed (the exception says that the exponent must be an integer–even for matrices that can be diagonalized with positive coefficients). So, as long as your matrix D is diagonal, you should be able to directly use your formula. 


Please note that it is recommended to use numpy's
In your case, the matrix is diagonal, and so the square root of the matrix is just another diagonal matrix with the square root of the diagonal elements. Using numpy arrays, the equation becomes



Well, the only problem I see is that if you are using Python 2.6.x (without Other than that, it looks correct to me. Edit: I was trying to exponentiate a numpy array, not a matrix before, which works with



Does numpy have square root function for matrixes? Then you could do sqrt(D) instead of (D**(1/2)) Maybe the formula should realy be written
Based on previous comment this formula should work in case of D being diagonal matrix (I have not chance to prove it now). 

