An instruction buffer for a low-power DSP

Proceedings Sixth International Symposium on Advanced Research in Asynchronous Circuits and Systems (ASYNC 2000) (Cat. No. PR00586) Pub Date : 2000-04-02 DOI:10.1109/ASYNC.2000.837010

M. Lewis, L. Brackenbury

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引用次数: 5

Abstract

An architecture for a low-power asynchronous DSP has been developed, for the target application of GSM (digital cellphone) chipsets. A key part of this architecture is an instruction buffer which both provides storage for prefetched instructions and performs hardware looping, This requires low latency and a reasonably fast cycle time, but must also be designed for low power. A design is presented based on a word-slice FIFO structure. This avoids the problems of input latency and power consumption associated with linear micropipeline FIFOs, and the structure lends itself reactively easily to the required looping behaviour. The latency, cycle time and power consumption for this design is compared to that of a simple micropipeline FIFO. The cycle time for the instruction buffer is around three times slower than the micropipeline FIFO. However the instruction buffer shows an energy per operation of between 48-62% of that for the (much less capable) micropipeline structure. The input to output latency with an empty FIFO is less than the micropipeline design by a factor of ten.

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用于低功耗DSP的指令缓冲器

针对GSM(数字手机)芯片组的目标应用，设计了一种低功耗异步DSP体系结构。该体系结构的一个关键部分是指令缓冲区，它既为预取指令提供存储，又执行硬件循环，这需要低延迟和相当快的周期时间，但也必须设计为低功耗。提出了一种基于字片FIFO结构的设计方案。这避免了与线性微管道fifo相关的输入延迟和功耗问题，并且该结构可以很容易地响应所需的循环行为。该设计的延迟，周期时间和功耗与简单的微管道FIFO进行了比较。指令缓冲区的周期时间大约比微管道FIFO慢三倍。然而，指令缓冲区显示每次操作的能量在48-62%之间(能力差得多)的微管道结构。空FIFO的输入到输出延迟比微管道设计少十倍。

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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Proceedings Sixth International Symposium on Advanced Research in Asynchronous Circuits and Systems (ASYNC 2000) (Cat. No. PR00586)

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