ON MAX CUT IN CUBIC GRAPHS

Parallel Algorithms and Applications Pub Date : 2002-01-01 DOI:10.1080/01495730108941439
T. Calamoneri, Irene Finocchi, Y. Manoussakis, R. Petreschi
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引用次数: 1

Abstract

Abstract This paper is concerned with the maximum cut problem in parallel on cubic graphs. New theoretical results characterizing the cardinality of the cut are presented. These results make it possible to design a simple combinatorial O(log n) time parallel algorithm, running on a CRCW P-RAM with O(n) processors. The approximation ratio achieved by the algorithm is 1·3 and improves the best known parallel approximation ratio, i.e. 2, in the special class of cubic graphs. The algorithm also guarantees that the size of the returned cut is at least ((9g −3)/8 g)n, where g is the odd girth of the input graph. Experimental results round off the paper, showing that the solutions obtained in practice are likely to be much better than the theoretical lower bound.
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关于三次图的Max切割
摘要研究三次图上并行的最大割问题。提出了刻画切割基数性的新理论结果。这些结果使得设计一个简单的组合O(log n)时间并行算法成为可能,该算法运行在具有O(n)个处理器的CRCW P-RAM上。该算法实现的近似比为1·3,改进了三次图特殊类别中最著名的并行近似比2。该算法还保证返回切割的大小至少为((9g−3)/ 8g)n,其中g为输入图的奇周长。实验结果表明,实际得到的解可能比理论下界好得多。
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Parallel Algorithms and Applications
Parallel Algorithms and Applications
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