# Finding max clique in perfect graphs

A fast algorithm to find the size of the largest clique in a perfect graph(this one having odd cycles with at least 1 chord) with about 100 vertices ??

And is there any simpler method than brute force as this is a perfect graph and there should be a polynomial time solution to it. But I am not able to find the algorithm.

Does greedy coloring give optimal coloring in all perfect graphs??

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Have you made any attempt? –  mvid Jun 11 '10 at 5:11
I hv attempted few approaches but all of them were too slow. –  copperhead Jun 11 '10 at 5:20
Just found this in wikipedia: in all perfect graphs, the graph coloring problem, maximum clique problem, and maximum independent set problem can all be solved in polynomial time (Grötschel, Lovász & Schrijver 1988) Grötschel, Martin; Lovász, László; Schrijver, Alexander (1988). Geometric Algorithms and Combinatorial Optimization. Springer-Verlag. See especially chapter 9, "Stable Sets in Graphs", pp. 273–303. –  yogsototh Jun 11 '10 at 5:30
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## 2 Answers

See page 296, with some work you should write the right linear programming constraint to solve this problem.

http://www.scribd.com/doc/5710463/Geometric-Algorithms-And-Combinatorial-Optimization

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+1: Only answer which addresses perfect graphs, for which the clique problem is in P. –  Aryabhatta Jun 11 '10 at 12:22
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100 vertices? Pffft. Brute force it in a few seconds (perhaps fraction of a second) with Cliquer. http://users.tkk.fi/pat/cliquer.html

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Can u explain the algorithm(I have seen the documentation) but in simpler terms –  copperhead Jun 11 '10 at 6:56
Sure. First Cliquer defines a permutation of the vertices. I think by default it is in whatever order you used in the input. Secondly, cliquer iterates finding the largest clique in the set [i....n], from i = n-1 to i=1. Along the way it remembers the largest clique it has found so far and when testing for new cliques it prunes the search when it becomes apparent that from the previously calculated clique sizes it will be impossible for that path of the search to yield a larger clique. –  Chad Brewbaker Jun 14 '10 at 7:23
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