获得精确最小AND-EXOR表达式的有效搜索方法

Third IEEE International Workshop on Electronic Design, Test and Applications (DELTA'06) Pub Date : 2006-01-17 DOI:10.1109/DELTA.2006.41

T. Hirayama, Y. Nishitani

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引用次数: 2

摘要

我们提出了三种获得精确最小and - exor表达式的搜索方法:深度优先、宽度优先和最优搜索时深度优先。它们在实际的计算时间内最小化多达7个变量的函数。实验结果比较了这些方法的有效性。深度优先搜索节省了内存消耗，使16个变量的基准函数t481最小化，而不会耗尽内存。对于随机生成的单输出函数，该搜索方法的平均计算时间是三种方法中最快的。对于大多数基准函数，深度优先最优搜索在计算时间上是最快的。然而，对于一些基准函数，广度优先搜索是最快的

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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Efficient search methods for obtaining exact minimum AND-EXOR expressions

We propose three search methods for obtaining exact minimum AND-EXOR expressions: the depth-first, the breadth-first, and the depth-first-when-optimum searches. They minimize up to 7-variable functions in a practical computation time. Experimental results to compare the efficiency of these methods are presented. The depth-first search, which saves the memory consumption, minimizes the 16-variable benchmark function t481 without memory exhaustion. This search method is the fastest among these three methods on the average computation time for randomly-generated single-output functions. The depth-first-when-optimum search is the fastest on the computation time for the most of benchmark functions. For some benchmark functions, however, the breadth-first search is the fastest

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Third IEEE International Workshop on Electronic Design, Test and Applications (DELTA'06)

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