Artificial bee Colony optimization based CMOS inverter design considering propagation delays

2010 XIth International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design (SM2ACD) Pub Date : 2010-12-17 DOI:10.1109/SM2ACD.2010.5672326

Y. Delican, R. Vural, T. Yıldırım

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引用次数: 17

Abstract

Artificial bee colony (ABC) algorithm is a new population based metaheuristic approach inspired by intelligent foraging behavior of honeybee swarm. Since microelectronic circuit design deals with highly complicated nonlinear equations, obtaining optimal solution of these equations due to particular constraints in short time and acceptable error is of prime concern. Simpler structure and better result providing in case of parameter growth makes ABC an ideal candidate for optimal design of circuit topologies. In this work, usage of ABC algorithm in electronic circuit design has been investigated. For this purpose, the performance of the algorithm has been tested on the design of a CMOS inverter considering transient performance. The optimizations of CMOS inverter parameters are carried out using ABC in MATLAB and the accuracy of performance prediction is verified by SPICE simulation (0.25-µm). Performance criteria of inverter constitute the constraints of ABC. Obtained results show that ABC is capable of designing the CMOS inverter in a very short time while satisfying all the design considerations with an acceptable error.

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基于人工蜂群优化的考虑传播延迟CMOS逆变器设计

人工蜂群(Artificial bee colony, ABC)算法是受蜂群智能觅食行为启发而提出的一种基于种群的元启发式算法。由于微电子电路设计处理的是高度复杂的非线性方程，这些方程由于特定的约束条件，在短时间内获得最优解和可接受的误差是首要考虑的问题。简单的结构和在参数增长情况下提供更好的结果使ABC成为电路拓扑优化设计的理想候选者。本文研究了ABC算法在电子电路设计中的应用。为此，在考虑瞬态性能的CMOS逆变器设计上对算法的性能进行了测试。利用MATLAB中的ABC对CMOS逆变器参数进行了优化，并通过SPICE仿真(0.25-µm)验证了性能预测的准确性。逆变器的性能标准构成了ABC的约束条件。得到的结果表明，ABC能够在很短的时间内设计出CMOS逆变器，同时满足所有设计考虑，误差可接受。

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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来源期刊

2010 XIth International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design (SM2ACD)

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