# Compute affinity matrix from distance matrix

I used clustal omega to get a distance matrix of 500 protein sequences (they are homologous to each other).

I want to use affinity propagation to cluster these sequences.

Initially, because I observed by hand that the distance matrix only had values between 0 and 1, with 0 distance = 100% identity, I reasoned that I could just take (1 - distance) to get affinity.

I ran my code, and the clusters looked reasonable, and I thought all was well... until I read that typically, affinity matrices are calculated from distance matrices by applying a "heat kernel". That's when all hell broke loose in my mind.

Did I get the concept of affinity matrix incorrect? Is there an easy way of computing the affinity matrix? scikit-learn offers the following formula:

similarity = np.exp(-beta * distance / distance.std())

But what is beta? I know distance.std() is the standard deviation of the distance.

I'm quite confused and lost right now with the concepts involved (as opposed to the actual coding implementation), so any help is greatly appreciated!

P.S. I've tried posting to Biostars.org, but I haven't gotten an answer there...

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Where does that code come from, specifically? –  Michael Hoffman Apr 21 '13 at 2:09
The code comes from this page: scikit-learn.org/dev/modules/clustering.html –  ericmjl Apr 22 '13 at 18:06
That code is from a larger script on one of the linked pages beneath it, Segmenting the picture of Lena in regions. Does the comment describing beta there help? –  Michael Hoffman Apr 23 '13 at 1:59
That helps, @MichaelHoffman! –  ericmjl Apr 24 '13 at 4:41
I am trying to understand the value of beta here. Approaching a voronoi when beta = 1... - what is your understanding on this? –  ericmjl Apr 24 '13 at 4:42