Information theoretic SOP expression minimization technique

2007 10th international conference on computer and information technology Pub Date : 2007-12-01 DOI:10.1109/ICCITECHN.2007.4579404

Md Faisal Kabir, S. Aziz, S. Ahmmed, C.M. Rahman

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引用次数: 2

Abstract

The efficient design of multiple Boolean functions is becoming important and necessary during computer aided design for circuit and systems (CADCS), especially the manufacture of chips have reached a density of several ten thousands transistors per chip, so called very large scale integration (VLSI). To simplify the Boolean expressions by conventional approaches like graphical observation-based K-MAP or other simplification procedures become tedious or even impossible when the number of variables in a truth table exceeds certain limit. In this paper we propose an information theory based circuit designing approach for deriving minimal sum of product (SOP) expressions for unlimited number of variable. We have verified our approach on a number of cases with the conclusion that the proposed approach is a better alternative to conventional approaches particularly when the numbers of variables restrict the use of conventional approaches. The key feature of proposed method is that it performs a hill-climbing search through the state space of Boolean variables using information theoretic heuristic to find the minimal SOP expression.

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信息论SOP表达式最小化技术

多布尔函数的高效设计在计算机辅助电路与系统设计(CADCS)中变得越来越重要和必要，特别是芯片的制造已经达到了每片数万个晶体管的密度，即超大规模集成电路(VLSI)。当真值表中变量的数量超过一定限制时，通过基于图形观察的K-MAP或其他简化过程等传统方法来简化布尔表达式变得繁琐甚至不可能。本文提出了一种基于信息论的电路设计方法，用于求无限变量的最小积和(SOP)表达式。我们在一些情况下验证了我们的方法，得出的结论是，所建议的方法是传统方法的更好替代方法，特别是当变量的数量限制了传统方法的使用时。该方法的主要特点是利用信息启发式方法在布尔变量的状态空间中进行爬坡式搜索，以找到最小的SOP表达式。

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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2007 10th international conference on computer and information technology

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