改进了在外部存储器中解决图形问题的算法和数据结构

Proceedings of SPDP '96: 8th IEEE Symposium on Parallel and Distributed Processing Pub Date : 1996-10-23 DOI:10.1109/SPDP.1996.570330

Vijay Kumar, E. Schwabe

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引用次数: 141

摘要

最近，对I/ o高效算法的研究已经超越了排序和排列的基本问题，进入了更广泛的领域，如计算几何和图算法。随着这种扩展，需要新的算法技术和数据结构。在本文中，我们提出了一些众所周知的数据结构的I/ o效率模拟，我们证明这些数据结构对于获得一些图问题的更简单和改进的算法是有用的。我们的结果包括最小生成树、宽度优先搜索和单源最短路径的改进算法。这些算法的描述通过使用具有良好平摊性能界限的良好定义的I/ o高效数据结构而大大简化。我们期望像这样的I/O高效数据结构将成为设计I/O高效算法的有用工具。

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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Improved algorithms and data structures for solving graph problems in external memory

Recently, the study of I/O-efficient algorithms has moved beyond fundamental problems of sorting and permuting and into wider areas such as computational geometry and graph algorithms. With this expansion has come a need for new algorithmic techniques and data structures. In this paper, we present I/O-efficient analogues of well-known data structures that we show to be useful for obtaining simpler and improved algorithms for several graph problems. Our results include improved algorithms for minimum spanning trees, breadth-first search, and single-source shortest paths. The descriptions of these algorithms are greatly simplified by their use of well-defined I/O-efficient data structures with good amortized performance bounds. We expect that I/O efficient data structures such as these will be a useful tool for the design-of I/O-efficient algorithms.

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Proceedings of SPDP '96: 8th IEEE Symposium on Parallel and Distributed Processing

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