近似计算电路的建模与分析

Rangharajan Venkatesan, A. Agarwal, K. Roy, A. Raghunathan
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引用次数: 257

摘要

近似计算(Approximate computing)近年来引起了人们极大的兴趣,它指的是一类技术,它放宽了对计算系统的规范和实现之间精确等价的要求。我们提出了一种系统的方法,称为MACACO,用于近似计算电路的建模和分析。所提出的方法可以用来分析近似电路的行为如何参考传统的正确实现,通过计算指标,如最坏情况误差,平均情况误差,误差概率和误差分布。该方法既适用于时间诱导的近似,如电压过标度或过时钟,也适用于基于逻辑复杂性降低的功能近似。MACACO的第一步是构造一个等效的非定时电路,表示近似电路在给定电压和时钟周期下的行为。接下来,我们构造一个虚拟误差电路,表示任意给定输入或输入序列的近似电路输出中的误差。最后,我们应用传统的布尔分析技术(SAT求解器,bdd)和统计技术(蒙特卡罗模拟)来计算各种感兴趣的指标。我们已经应用提出的方法来分析数据路径构建块的一系列近似设计。我们的研究结果表明,MACACO可以帮助设计人员系统地评估近似电路的影响,并在不同的近似实现之间进行选择,从而促进采用此类电路进行近似计算。
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MACACO: Modeling and analysis of circuits for approximate computing
Approximate computing, which refers to a class of techniques that relax the requirement of exact equivalence between the specification and implementation of a computing system, has attracted significant interest in recent years. We propose a systematic methodology, called MACACO, for the Modeling and Analysis of Circuits for Approximate Computing. The proposed methodology can be utilized to analyze how an approximate circuit behaves with reference to a conventional correct implementation, by computing metrics such as worst-case error, average-case error, error probability, and error distribution. The methodology applies to both timing-induced approximations such as voltage over-scaling or over-clocking, and functional approximations based on logic complexity reduction. The first step in MACACO is the construction of an equivalent untimed circuit that represents the behavior of the approximate circuit at a given voltage and clock period. Next, we construct a virtual error circuit that represents the error in the approximate circuit's output for any given input or input sequence. Finally, we apply conventional Boolean analysis techniques (SAT solvers, BDDs) and statistical techniques (Monte-Carlo simulation) in order to compute the various metrics of interest. We have applied the proposed methodology to analyze a range of approximate designs for datapath building blocks. Our results show that MACACO can help a designer to systematically evaluate the impact of approximate circuits, and to choose between different approximate implementations, thereby facilitating the adoption of such circuits for approximate computing.
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