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How do I find the fielder vector of a Laplacian (L) in Python?

I can get the eigenvalues and eigenvectors using: eigenvalues, eigenvectors = linalg.eig(L)

I assume that python does not return the eigenvalues in an order.

Do I take the 2nd largest eigenvalue and then match it to the corresponding eigenvector (matching in index)?

When ordering the eigenvalues, how do I deal with negative values? Is the ordering by absolute magnitude?

Thanks for your help

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1 Answer 1

up vote 2 down vote accepted

Well, I don't know about the math involved, but I'll do my best.

If you check the documentation, linalg.eig does in fact return the eigenvectors in the same order as their corresponding eigenvalues.

I might do something like:

w, v = linalg.eig(L)
seen = {}
unique_eigenvalues = []
for (x, y) in zip(w, v):
    if x in seen:
    seen[x] = 1
    unique_eigenvalues.append((x, y))
fiedler = sorted(unique_eigenvalues)[1][1]

by default Python sorts tuples by the first element, then the second and so on, and numbers are ordered just the way you'd expect (-2 < -1 etc.). This assumes that your eigenvalues aren't complex of course.

Also, I've assumed that there might be duplicate eigenvalues and that the Fiedler vector is the eigenvector associated with the second smallest unique eigenvalue.

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