Approaching Optimality for Solving SDD Linear Systems

2010 IEEE 51st Annual Symposium on Foundations of Computer Science Pub Date : 2010-03-15 DOI:10.1137/110845914

I. Koutis, G. Miller, Richard Peng

引用次数: 286

Abstract

We present an algorithm that on input of an $n$-vertex $m$-edge weighted graph $G$ and a value $k$, produces an {\em incremental sparsifier} $\hat{G}$ with $n-1 + m/k$ edges, such that the condition number of $G$ with $\hat{G}$ is bounded above by $\tilde{O}(k\log^2 n) $, with probability $1-p$. The algorithm runs in time $$\tilde{O}((m \log{n} + n\log^2{n})\log(1/p)).$$ As a result, we obtain an algorithm that on input of an $n\times n$ symmetric diagonally dominant matrix $A$ with $m$ non-zero entries and a vector $b$, computes a vector ${x}$ satisfying $| |{x}-A^{+}b| |_A

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求解SDD线性系统的逼近最优性

我们提出了一种算法，当输入一个$n$-顶点$m$-边加权图$G$和一个值$k$时，产生一个$n-1 + m/k$边的$\hat{G}$，使得$G$具有$\hat{G}$的条件数在$\tilde{O}(k\log^ 2n) $上有界，其概率为$1-p$。算法运行时间为$$\tilde{O}((m \log{n} + n\log^2{n})\log(1/p))。结果，我们得到了一个算法，该算法在输入$n\乘以n$对称对角占优矩阵$ a $时，具有$m$非零项和一个向量$b$，计算出一个满足$| |{x}-A^{+}b| |_A的向量${x}$

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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2010 IEEE 51st Annual Symposium on Foundations of Computer Science

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