A new approach for circuit design optimization using Genetic Algorithm

2008 International SoC Design Conference Pub Date : 2008-12-01 DOI:10.1109/SOCDC.2008.4815652

Zhiguo Bao, T. Watanabe

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引用次数: 25

Abstract

A circuit designed by human often results in very complex hardware architectures, requiring a large amount of manpower and computational resources. A wider objective is used to find novel solutions to design such complex architectures so that system functionality and performance may not be compromised. Design automation using reconfigurable hardware and evolutionary algorithms (EA), such as genetic algorithm (GA), is one of the methods to tackle this issue. This concept applies the notion of Evolvable Hardware (EHW) to the problem domain such as novel design solutions and circuit optimization. EHW is a new field about the use of EA to synthesize a circuit. EA manipulates a population of individuals where each individual describes how to construct a candidate for a good circuit. Each circuit is assigned a fitness, which indicates how well a candidate satisfies the design specification. EA uses stochastic operators repeatedly to evolve new circuit configurations from existing ones, and a resultant circuit configuration will exhibit a desirable behavior. In this paper, optimum circuit design by using GA with fitness function composed of circuit complexity, power and time delay is proposed, and its effectiveness is shown by simulations.

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基于遗传算法的电路设计优化新方法

人工设计的电路往往会导致非常复杂的硬件架构，需要大量的人力和计算资源。更广泛的目标是寻找新的解决方案来设计这种复杂的体系结构，从而使系统的功能和性能不会受到损害。设计自动化使用可重构硬件和进化算法(EA)，如遗传算法(GA)，是解决这一问题的方法之一。该概念将可进化硬件(EHW)的概念应用于诸如新颖设计解决方案和电路优化等问题领域。EHW是利用EA合成电路的一个新领域。EA操纵一群个体，其中每个个体描述如何构建一个好的候选电路。每个电路被分配一个适应度，这表明候选电路满足设计规范的程度。EA反复使用随机操作符从现有的电路中进化出新的电路配置，并且最终的电路配置将显示出理想的行为。本文提出了一种由电路复杂度、功率和时延组成适应度函数的遗传优化电路设计方法，并通过仿真验证了其有效性。

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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2008 International SoC Design Conference

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