用于压缩码嵌入式处理器的快速异步霍夫曼解码器

Proceedings Fourth International Symposium on Advanced Research in Asynchronous Circuits and Systems Pub Date : 1998-03-30 DOI:10.1109/ASYNC.1998.666493

Martin Benes, S. Nowick, A. Wolfe

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引用次数: 52

摘要

本文介绍了一种用于嵌入式压缩码处理器的高性能异步霍夫曼解码器的结构和设计。在这种处理器中，嵌入式程序以压缩形式存储在指令ROM中，然后在指令缓存重新填充期间按需解压缩。霍夫曼解码器被用作代码解压缩引擎。该电路是非流水线的，并实现为迭代自定时环。它以非常低的面积开销实现高速解码率。使用Lsim进行的模拟显示，输出端的平均吞吐量为32位/25 ns(或163兆字节/秒，或1303兆比特/秒)，对应于输入端的大约889兆比特/秒。该设计的面积非常小:在0.8微米的全定制布局中，小于1毫米/sup 2/。据估计，该解码器比任何可比较的同步霍夫曼解码器(在特征尺寸和电压归一化后)具有更高的吞吐量，但比同步设计小得多。它的性能也比最近发布的使用相同技术的异步霍夫曼解码器快83%。

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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A fast asynchronous Huffman decoder for compressed-code embedded processors

This paper presents the architecture and design of a high-performance asynchronous Huffman decoder for compressed-code embedded processors. In such processors, embedded programs are stored in compressed form in instruction ROM then are decompressed on demand during instruction cache refill. The Huffman decoder is used as a code decompression engine. The circuit is non-pipelined, and is implemented as an iterative self-timed ring. It achieves a high-speed decode rate with very low area overhead. Simulations using Lsim show an average throughput of 32 bits/25 ns on the output side (or 163 MBytes/sec, or 1303 Mbit/sec), corresponding to about 889 Mbit/sec on the input side. The area of the design is extremely small: under 1 mm/sup 2/ in a 0.8 micron full-custom layout. The decoder is estimated to have higher throughput than any comparable synchronous Huffman decoder (after normalizing for feature size and voltage), yet is much smaller than synchronous designs. Its performance is also 83% faster than a recently published asynchronous Huffman decoder using the same technology.

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Proceedings Fourth International Symposium on Advanced Research in Asynchronous Circuits and Systems

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