Completeness Results for Graph Isomorphism
Birgit Jenner, Johannes Köbler, Pierre McKenzie, and Jacobo
Torán
Abstract:
We prove that the graph isomorphism problem restricted to trees and to colored graphs with color multiplicities 2 and 3 is many-one complete for several complexity classes within NC2. In particular we show that tree isomorphism, when trees are encoded as strings, is NC1-hard under AC0-reductions. NC1-completeness thus follows from Buss's NC1 upper bound.
By contrast, we prove that testing isomorphism of two trees encoded as pointer lists is L-complete. Concerning colored graphs we show that the isomorphism problem for graphs with color multiplicities 2 and 3 is complete for symmetric logarithmic space SL under many-one reductions. This result improves the existing upper bounds for the problem. We also show that the graph automorphism problem for colored graphs with color classes of size 2 is equivalent to deciding whether a graph has more than a single connected component and we prove that for color classes of size 3 the graph automorphism problem is contained in SL.
Ps-File: Completeness Results for Graph Isomorphism