入微近似拉普拉斯解法

arXiv - CS - Data Structures and Algorithms Pub Date : 2024-09-16 DOI:arxiv-2409.10022

Jingbang Chen, Mehrdad Ghadiri, Hoai-An Nguyen, Richard Peng, Junzhao Yang

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引用次数: 0

摘要

我们研究图上随机行走的逃逸概率问题。在给定了$s,t,$和$p$三个顶点的情况下，该问题要求计算从$s$开始的随机行走在到达$p$之前到达$t$的概率。即使是对于多项式混合时间的无权无向图，这种概率也可能是指数级小的。因此，目前的方法大多基于定点运算，在最坏的情况下需要 n 个比特的精度。我们提出了浮点运算下的加权有向图算法和分析，并在比特运算次数方面改进了之前的最佳运行时间。我们相信，我们的技术和分析会对图上随机游走的理论和实践计算产生更广泛的影响。

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Entrywise Approximate Laplacian Solving

We study the escape probability problem in random walks over graphs. Given vertices, $s,t,$ and $p$, the problem asks for the probability that a random walk starting at $s$ will hit $t$ before hitting $p$. Such probabilities can be exponentially small even for unweighted undirected graphs with polynomial mixing time. Therefore current approaches, which are mostly based on fixed-point arithmetic, require $n$ bits of precision in the worst case. We present algorithms and analyses for weighted directed graphs under floating-point arithmetic and improve the previous best running times in terms of the number of bit operations. We believe our techniques and analysis could have a broader impact on the computation of random walks on graphs both in theory and in practice.

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arXiv - CS - Data Structures and Algorithms

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