An SDP-based algorithm for linear-sized spectral sparsification

Y. Lee, He Sun
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引用次数: 76

Abstract

For any undirected and weighted graph G=(V,E,w) with n vertices and m edges, we call a sparse subgraph H of G, with proper reweighting of the edges, a (1+ε)-spectral sparsifier if (1-ε)xTLGx≤xT LH x≤(1+ε)xTLGx holds for any xΕℝn, where LG and LH are the respective Laplacian matrices of G and H. Noticing that Ω(m) time is needed for any algorithm to construct a spectral sparsifier and a spectral sparsifier of G requires Ω(n) edges, a natural question is to investigate, for any constant ε, if a (1+ε)-spectral sparsifier of G with O(n) edges can be constructed in Ο(m) time, where the Ο notation suppresses polylogarithmic factors. All previous constructions on spectral sparsification require either super-linear number of edges or m1+Ω(1) time. In this work we answer this question affirmatively by presenting an algorithm that, for any undirected graph G and ε>0, outputs a (1+ε)-spectral sparsifier of G with O(n/ε2) edges in Ο(m/εO(1)) time. Our algorithm is based on three novel techniques: (1) a new potential function which is much easier to compute yet has similar guarantees as the potential functions used in previous references; (2) an efficient reduction from a two-sided spectral sparsifier to a one-sided spectral sparsifier; (3) constructing a one-sided spectral sparsifier by a semi-definite program.
一种基于sdp的线性大小光谱稀疏化算法
任何无向加权图G = (V, E, w)与n顶点和m边,我们称之为稀疏H G的子图,通过适当的边的权重,一个(我µ1 +)光谱sparsifier如果(1 -ε)xTLGx≤xT LH x≤(1 +ε)xTLGx适用于任何xΕℝn, LG和LH各自的拉普拉斯算子矩阵G和H .注意到Ω(m)所需时间是任何算法来构造一个光谱sparsifier和光谱sparsifier G需要Ω(n)的边缘,一个自然的问题是调查,对于任何常数ε,如果可以在Ο(m)时间内构造具有O(n)条边的G的(1+ε)-谱稀疏子,其中Ο符号抑制了多对数因子。所有先前的光谱稀疏化结构都需要超线性边缘数或m1+Ω(1)时间。本文给出了一种算法,该算法对任意无向图G且ε>0,在Ο(m/εO(1))时间内输出具有O(n/ε2)条边的G的(1+ε)-谱稀疏子。我们的算法基于三种新技术:(1)一个新的势函数,它更容易计算,并且具有与以前参考文献中使用的势函数相似的保证;(2)将双面光谱稀疏器有效地简化为单面光谱稀疏器;(3)用半确定程序构造单侧谱稀疏器。
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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