Metamodel-assisted ultra-fast memetic optimization of a PLL for WiMax and MMDS applications

Thirteenth International Symposium on Quality Electronic Design (ISQED) Pub Date : 2012-03-19 DOI:10.1109/ISQED.2012.6187552

Oleg Garitselov, S. Mohanty, E. Kougianos, Oghenekarho Okobiah

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引用次数: 4

Abstract

With CMOS technologies progressing deeper into the nano-scale domain the design of analog and mixed-signal components is becoming very challenging. The presence of parasitics and the complexity of calculations involved create an enormous challenge for designers to keep their design within specifications when reaching the physical layout stage of the design process. This paper proposes a novel ultra-fast design flow that uses memetic-based optimization algorithms over neural-network based non-polynomial metamodels for design-space exploration. A new heuristic optimization algorithm which is based on memetic algorithms and artificial bee colony optimization is introduced. The design flow relies on a multiple-layer feedforward neural network metamodel of the nano-CMOS circuit. Using a CMOS PLL circuit it is shown that the proposed design flow is flexible and robust while it achieves optimal design to two different wireless specifications, WiMax and MMDS. Experimental results show that the proposed approach is 2.4 × faster than the swarm based optimization over the same metamodels.

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用于WiMax和MMDS应用的元模型辅助的超快速模因优化锁相环

随着CMOS技术向纳米级领域的深入发展，模拟和混合信号元件的设计变得非常具有挑战性。寄生现象的存在和计算的复杂性给设计师带来了巨大的挑战，当他们到达设计过程的物理布局阶段时，要保持他们的设计符合规格。本文提出了一种新的超快速设计流程，该流程在基于神经网络的非多项式元模型上使用基于模因的优化算法进行设计空间探索。提出了一种基于模因算法和人工蜂群优化的启发式优化算法。设计流程依赖于纳米cmos电路的多层前馈神经网络元模型。通过对一个CMOS锁相环电路的仿真，证明了所提出的设计流程的灵活性和鲁棒性，并在WiMax和MMDS两种不同的无线规范下实现了最优设计。实验结果表明，在相同的元模型下，该方法比基于群的优化方法快2.4倍。

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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Thirteenth International Symposium on Quality Electronic Design (ISQED)

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