RAPPID:异步指令长度解码器

Proceedings. Fifth International Symposium on Advanced Research in Asynchronous Circuits and Systems Pub Date : 1999-04-19 DOI:10.1109/ASYNC.1999.761523

Shai Rotem, K. Stevens, C. Dike, M. Roncken, Borislav Agapiev, R. Ginosar, Rakefet Kol, P. Beerel, C. Myers, K. Yun

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引用次数: 83

摘要

本文描述了对在英特尔架构中应用积极异步设计方法的潜在优势和风险的调查。RAPPID(旋转式异步奔腾(R)处理器指令解码器)是一种IA32指令长度解码和转向单元的原型，采用自定时技术实现。采用0.25 /spl μ m / CMOS工艺制作了RAPPID芯片，并成功进行了测试。结果显示了显著的优势——特别是2.5-4.5指令/秒的性能——使用这种设计技术的风险可控。与现有的400mhz时钟电路相比，RAPPID实现了三倍的吞吐量和一半的延迟，仅消耗一半的功率和大约相同的面积。

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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RAPPID: an asynchronous instruction length decoder

This paper describes an investigation of potential advantages and risks of applying an aggressive asynchronous design methodology to Intel Architecture. RAPPID ("Revolving Asynchronous Pentium(R) Processor Instruction Decoder"), a prototype IA32 instruction length decoding and steering unit, was implemented using self-timed techniques. RAPPID chip was fabricated on a 0.25 /spl mu/ CMOS process and tested successfully. Results show significant advantages-in particular, performance of 2.5-4.5 instructions/nS-with manageable risks using this design technology. RAPPID achieves three times the throughput and half the latency, dissipating only half the power and requiring about the same area as an existing 400 MHz clocked circuit.

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Proceedings. Fifth International Symposium on Advanced Research in Asynchronous Circuits and Systems

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