Quantum and randomized lower bounds for local search on vertex-transitive graphs

IF 0.7 4区 物理与天体物理 Q3 COMPUTER SCIENCE, THEORY & METHODS
Hang T. Dinh, A. Russell
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引用次数: 2

Abstract

We study the problem of local search on a graph. Given a real-valued black-box functionf on the graph's vertices, this is the problem of determining a local minimum of f--a vertex v for which f(v) is no more than f evaluated at any of v's neighbors. In1983, Aldous gave the first strong lower bounds for the problem, showing that anyrandomized algorithm requires Ω(2n/2-o(n)) queries to determine a local minimum onthe n-dimensional hypercube. The next major step forward was not until 2004 whenAaronson, introducing a new method for query complexity bounds, both strengthened thislower bound to Ω(2n/2/n2) and gave an analogous lower bound on the quantum querycomplexity. While these bounds are very strong, they are known only for narrow familiesof graphs (hypercubes and grids). We show how to generalize Aaronson's techniques inorder to give randomized (and quantum) lower bounds on the query complexity of localsearch for the family of vertex-transitive graphs. In particular, we show that for anyvertex-transitive graph G of N vertices and diameter d, the randomized and quantumquery complexities for local search on G are Ω (√N/dlogN) and (4√N / √dlogN),respectively.
顶点传递图局部搜索的量子和随机下界
研究图上的局部搜索问题。给定图顶点上的实值黑盒函数,这是确定f的局部最小值的问题——一个顶点v,其中f(v)在v的任何邻居处的值都不大于f。1983年,Aldous给出了该问题的第一个强下界,表明任何随机化算法都需要Ω(2n/2-o(n))次查询来确定n维超立方体上的局部最小值。直到2004年,aaronson引入了一种新的查询复杂度边界方法,将这个下界强化为Ω(2n/2/n2),并给出了量子查询复杂度的类似下界。虽然这些界限非常强大,但它们只适用于狭窄的图族(超立方体和网格)。我们展示了如何推广Aaronson的技术,以给出顶点传递图族的局部搜索查询复杂度的随机(和量子)下界。特别地,我们证明了对于具有N个顶点和直径为d的任意顶点传递图G, G上局部搜索的随机化和量子化复杂度分别为Ω(√N/dlogN)和(4√N /√dlogN)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Quantum Information & Computation
Quantum Information & Computation 物理-计算机:理论方法
CiteScore
1.70
自引率
0.00%
发文量
42
审稿时长
3.3 months
期刊介绍: Quantum Information & Computation provides a forum for distribution of information in all areas of quantum information processing. Original articles, survey articles, reviews, tutorials, perspectives, and correspondences are all welcome. Computer science, physics and mathematics are covered. Both theory and experiments are included. Illustrative subjects include quantum algorithms, quantum information theory, quantum complexity theory, quantum cryptology, quantum communication and measurements, proposals and experiments on the implementation of quantum computation, communications, and entanglement in all areas of science including ion traps, cavity QED, photons, nuclear magnetic resonance, and solid-state proposals.
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