低能量异步加法器

Q3 Arts and Humanities Giornale di Storia Costituzionale Pub Date : 2004-12-13 DOI:10.1109/ICECS.2004.1399640

Ilya Obridko, R. Ginosar

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引用次数: 4

摘要

异步电路通常被认为是实现低功耗操作的一种手段。我们研究了它们在低能耗应用中的适用性，在低能耗应用中，长电池寿命和延迟容忍是主要设计目标，并且性能不是关键要求。研究了三种加法器电路——两种动态加法器电路和一种基于通管逻辑的加法器电路。所有加法器都结合了双轨和捆绑数据电路。该电路在一个很宽的电源电压范围内进行模拟，直至其最小工作点。发现泄漏能量(0.18 /spl mu/m)可以忽略不计。晶体管数量被发现是一个不可靠的能量耗散预测器。动态逻辑中的Keepers在可能的情况下被消除。由K.S. Chong等人最初提出的一种二位动态加法器的改进版本所耗散的能量最小。计算机协会。电路与系统，2002)。

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Low energy asynchronous adders

Asynchronous circuits are often presented as a means to achieve low power operation. We investigate their suitability for low energy applications, where long battery life and delay tolerance is the principal design goal, and where performance is not a critical requirement. Three adder circuits are studied -two dynamic and one based on pass-transistor logic. All adders combine dual-rail and bundled-data circuits. The circuits are simulated at a wide supply-voltage range, down to their minimal operating point. Leakage energy (at 0.18 /spl mu/m) is found to be negligible. Transistor count is found to be an unreliable predictor of energy dissipation. Keepers in dynamic logic are eliminated when possible. The least amount of energy is dissipated by a modified version of a two-bit dynamic adder originally proposed by K.S. Chong et al. (see Int. Symp. Circuits and Systems, 2002).

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