Fast analog design optimization using regression-based modeling and genetic algorithm: A nano-CMOS VCO case study

D. Ghai, S. Mohanty, G. Thakral
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引用次数: 12

Abstract

The mature electronic design automation (EDA) tools and well-defined abstraction-levels for digital circuits have almost automated the digital design process. However, analog circuit design and optimization is still not automated. Custom design of analog circuits and slow analog in SPICE has always needed maximum efforts, skills, design cycle time. This paper presents a novel design flow for constrained optimization of nano-CMOS analog circuits. The proposed analog design flow combines polynomial-regression based models and genetic algorithm for fast optimization. For evaluating the effectiveness of the proposed design flow, power minimization in a 50nm CMOS based current-starved voltage-controlled oscillator (VCO) is carried out, while treating oscillation frequency as a performance constraint. Accurate polynomial-regression based models are developed for power and frequency of the VCO. The goodness-of-fit of the models is evaluated using SSE, RMSE and R2. Using these models, we form a constrained optimization problem which is solved using genetic algorithm. The flow achieved 21.67% power savings, with a constraint of frequency ≥ 100 MHz. To the best of the authors' knowledge, this is the first study which approaches a VCO design problem as a mathematical constrained optimization involving the usage of regression based modeling and genetic algorithm.
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基于回归建模和遗传算法的快速模拟设计优化:纳米cmos压控振荡器案例研究
成熟的电子设计自动化(EDA)工具和定义良好的数字电路抽象层几乎使数字设计过程自动化。然而,模拟电路的设计和优化仍然不是自动化的。SPICE中模拟电路和慢速模拟的定制设计一直需要最大的努力,技能和设计周期时间。本文提出了一种新的纳米cmos模拟电路约束优化设计流程。所提出的模拟设计流程结合了基于多项式回归模型和遗传算法的快速优化。为了评估所提出的设计流程的有效性,在将振荡频率作为性能约束的同时,对基于50nm CMOS的电流匮乏压控振荡器(VCO)进行了功率最小化。建立了精确的基于多项式回归的压控振荡器功率和频率模型。使用SSE、RMSE和R2来评估模型的拟合优度。利用这些模型,形成一个约束优化问题,并用遗传算法求解。在频率约束≥100 MHz的情况下,该流节省了21.67%的功率。据作者所知,这是第一个将VCO设计问题作为数学约束优化的研究,涉及使用基于回归的建模和遗传算法。
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