Maximum common subgraph isomorphism problem

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In complexity theory, maximum common subgraph-isomorphism (MCS) is an optimization problem that is known to be NP-hard. The formal description of the problem is as follows:

Maximum common subgraph-isomorphism(G₁, G₂)

Input: Two graphs G₁ and G₂.
Question: What is the largest induced subgraph of G₁ isomorphic to a subgraph of G₂?

The associated decision problem, i.e., given G₁, G₂ and an integer k, deciding whether G₁ contains a subgraph of at least k edges isomorphic to a subgraph of G₂ is NP-complete.

One possible solution for this problem is to build a modular product graph, in which the largest clique represents a solution for the MCS problem.

MCS algorithms have a long tradition in cheminformatics and pharmacophore mapping.

[edit] See also

[edit] References

Michael R. Garey and David S. Johnson (1979). Computers and Intractability: A Guide to the Theory of NP-Completeness. W.H. Freeman. ISBN 0-7167-1045-5. A1.4: GT48, pg.202.

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This page was last modified 19:42, 24 October 2007 by Wikipedia user Michael Hardy. Based on work by Wikipedia user(s) Srn, DVanDyck, Modify, SmackBot and Joerg Kurt Wegner and Anonymous user(s) of Wikipedia.
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