Quantum Query Complexity of Minor-closed Graph Properties
Seminar
Speaker:
Robin Kothari
University of Waterloo
Institute for Quantum Computing
200 University Ave. West
Waterloo, Ontar
Date:
Wednesday, 27 Apr 2011 (all day)
Venue:
A-212 (STCS Seminar Room)
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Abstract:
We study the quantum query complexity of minor-closed graph properties, which include such problems as determining whether a graph is planar, is a forest, or does not contain a path of a given length. We show that most minor-closed properties---those that cannot be characterized by a finite set of forbidden subgraphs---have quantum query complexity \\Theta(n^{3/2}). To establish this, we prove an adversary lower bound using a detailed analysis of the structure of minor-closed properties with respect to forbidden topological minors and forbidden subgraphs. On the other hand, we show that minor-closed properties (and more generally, sparse graph properties) that can be characterized by finitely many forbidden subgraphs can be solved strictly faster, in o(n^{3/2}) queries. Our algorithms are a novel application of the quantum walk search framework and give improved upper bounds for several subgraph-finding problems.