异步电路:一个越来越实用的设计方案

P. Beerel
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引用次数: 40

摘要

虽然超深亚微米设计对标准的同步设计实践提出了越来越困难的挑战,但最近对异步设计技术的研究使异步电路成为越来越实用的选择。这些挑战包括越来越大的低功耗压力,预测线负载和延迟影响的挑战,以及支持不同时钟域之间通信所带来的性能损失。本文回顾了现有异步设计技术所支持的解决这些问题的不同方法。它侧重于细颗粒二维流水线技术,该技术在标称电源下产生超高速,在降低电源时产生非常低的能量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Asynchronous circuits: an increasingly practical design solution
While ultra-deep-submicron design presents increasingly difficult challenges for standard synchronous design practices, recent research in asynchronous design techniques is making asynchronous circuits an increasingly practical alternative. These challenges include the increasing pressure for low-power, the growing challenge of predicting increasing impact of wire load and delay, and the performance penalty associated with supporting communication between different clock domains. This paper reviews the different solutions to these problems that the spectrum of existing asynchronous design techniques support. It focuses on techniques for fine-grain two-dimensional pipelining that yield ultra-high-speed at nominal power supplies and very low-energy at reduced power supplies.
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