Fast Monte-Carlo algorithms for finding low-rank approximations

Proceedings 39th Annual Symposium on Foundations of Computer Science (Cat. No.98CB36280) Pub Date : 1998-11-08 DOI:10.1109/SFCS.1998.743487

A. Frieze, R. Kannan, S. Vempala

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引用次数: 774

Abstract

In several applications, the data consists of an m/spl times/n matrix A and it is of interest to find an approximation D of a specified rank k to A where, k is much smaller than m and n. Traditional methods like the Singular Value Decomposition (SVD) help us find the "best" such approximation. However, these methods take time polynomial in m, n which is often too prohibitive. In this paper, we develop an algorithm which is qualitatively faster provided we may sample the entries of the matrix according to a natural probability distribution. Indeed, in the applications such sampling is possible. Our main result is that we can find the description of a matrix D* of rank at most k so that /spl par/A-D*/spl par//sub F//spl les/min/D,rank(D)/spl les/k/spl par/A-D/spl par//sub F/+/spl epsiv//spl par/A/spl par//sub F/ holds with probability at least 1-/spl delta/. (For any matrix M, /spl par/M/spl par//sub F//sup 2/ denotes the sum of the squares of all the entries of M.) The algorithm takes time polynomial in k, 1//spl epsiv/, log(1//spl delta/) only, independent of m, n.

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寻找低秩近似的快速蒙特卡罗算法

在一些应用中，数据由一个m/spl乘以/n的矩阵A组成，找到一个特定秩k到A的近似D是很有趣的，其中k远远小于m和n。传统的方法，如奇异值分解(SVD)帮助我们找到“最佳”这样的近似。然而，这些方法需要m的时间多项式，这通常是令人望而却步的。在本文中，我们开发了一种定性更快的算法，只要我们可以根据自然概率分布对矩阵的条目进行采样。实际上，在应用程序中，这样的采样是可能的。我们的主要结果是，我们可以找到一个矩阵D*的描述，使得/spl par/ a -D*/spl par//sub F//spl les/min/D，秩(D)/spl les/k/spl par/ a -D/spl par//sub F/+/spl epsiv//spl par/ a/ spl par//sub F/的概率至少为1-/spl delta/。(对于任意矩阵M， /spl par/M/spl par//sub F//sup 2/表示M中所有元素的平方和)该算法只需要k的时间多项式，1//spl δ /， log(1//spl δ /)，与m, n无关。

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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Proceedings 39th Annual Symposium on Foundations of Computer Science (Cat. No.98CB36280)

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