混合极性里德-穆勒逻辑电路的高效快速面积优化方法

IF 1.6 4区 计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Chinese Journal of Electronics Pub Date : 2024-09-09 DOI:10.23919/cje.2022.00.407
Yuhao Zhou;Zhenxue He;Jianhui Jiang;Xiaojun Zhao;Fan Zhang;Limin Xiao;Xiang Wang
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引用次数: 0

摘要

面积已成为制约集成电路发展的主要瓶颈之一。现有基于 XNOR/OR 的混合极性里德-穆勒(MPRM)电路的面积优化方法的优化效果和效率较差。鉴于 MPRM 逻辑电路的面积优化是一个组合优化问题,我们提出了一种整体退火自适应细菌觅食算法(WAA-BFA),其中包括基于马尔可夫链和 Metropolis 接受准则的个体进化和基于自适应概率的个体突变。针对现有极性转换方法转换效率低的问题,我们引入了快速极性转换算法(FPCA)。此外,我们还提出了一种 MPRM 电路面积优化方法,利用 FPCA 和 WAA-BFA 搜索与最小电路面积相对应的最佳极性。实验结果表明,所提出的 MPRM 电路面积优化方法是有效的,可作为一种有前途的 EDA 工具使用。
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An Efficient and Fast Area Optimization Approach for Mixed Polarity Reed-Muller Logic Circuits
Area has become one of the main bottlenecks restricting the development of integrated circuits. The area optimization approaches of existing XNOR/OR-based mixed polarity Reed-Muller (MPRM) circuits have poor optimization effect and efficiency. Given that the area optimization of MPRM logic circuits is a combinatorial optimization problem, we propose a whole annealing adaptive bacterial foraging algorithm (WAA-BFA), which includes individual evolution based on Markov chain and Metropolis acceptance criteria, and individual mutation based on adaptive probability. To address the issue of low conversion efficiency in existing polarity conversion approaches, we introduce a fast polarity conversion algorithm (FPCA). Moreover, we present an MPRM circuits area optimization approach that uses the FPCA and WAA-BFA to search for the best polarity corresponding to the minimum circuits area. Experimental results demonstrate that the proposed MPRM circuits area optimization approach is effective and can be used as a promising EDA tool.
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来源期刊
Chinese Journal of Electronics
Chinese Journal of Electronics 工程技术-工程:电子与电气
CiteScore
3.70
自引率
16.70%
发文量
342
审稿时长
12.0 months
期刊介绍: CJE focuses on the emerging fields of electronics, publishing innovative and transformative research papers. Most of the papers published in CJE are from universities and research institutes, presenting their innovative research results. Both theoretical and practical contributions are encouraged, and original research papers reporting novel solutions to the hot topics in electronics are strongly recommended.
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