Efficient Code Density Through Look-up Table Compression

2007 Design, Automation & Test in Europe Conference & Exhibition Pub Date : 2007-04-16 DOI:10.1109/DATE.2007.364390

Talal Bonny, J. Henkel

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引用次数: 23

Abstract

Code density is a major requirement in embedded system design since it not only reduces the need for the scarce resource memory but also implicitly improves further important design parameters like power consumption and performance. Within this paper we introduce a novel and efficient hardware-supported approach that belongs to the group of statistical compression schemes as it is based on canonical Huffman coding. In particular, our scheme is the first to also compress the necessary Look-up Tables that can become significant in size if the application is large and/or high compression is desired. Our scheme optimizes the number of generated look-up tables to improve the compression ratio. In average, we achieve compression ratios as low as 49% (already including the overhead of the lookup tables). Thereby, our scheme is entirely orthogonal to approaches that take particularities of a certain instruction set architecture into account. We have conducted evaluations using a representative set of applications and have applied it to three major embedded processor architectures, namely ARM, MIPS and PowerPC

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通过查找表压缩实现高效代码密度

代码密度是嵌入式系统设计的主要要求，因为它不仅减少了对稀缺资源内存的需求，而且还隐含地提高了功耗和性能等重要设计参数。在本文中，我们介绍了一种新的和有效的硬件支持的方法，它属于统计压缩方案组，因为它是基于规范的霍夫曼编码。特别是，我们的方案是第一个压缩必要的查找表的方案，如果应用程序很大和/或需要高压缩，查找表的大小会变得很大。我们的方案优化了生成的查找表的数量，以提高压缩比。平均而言，我们实现的压缩比低至49%(已经包括查找表的开销)。因此，我们的方案与考虑特定指令集体系结构特殊性的方法完全正交。我们使用一组具有代表性的应用程序进行了评估，并将其应用于三种主要的嵌入式处理器架构，即ARM, MIPS和PowerPC

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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2007 Design, Automation & Test in Europe Conference & Exhibition

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