Code compression for ARM7 embedded systems

2007 18th European Conference on Circuit Theory and Design Pub Date : 2007-08-01 DOI:10.1109/ECCTD.2007.4529689
Valeria Garofalo, E. Napoli, N. Petra, A. Strollo
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引用次数: 4

Abstract

A detailed analysis of different code compression algorithms is provided in this paper. The performances of the algorithms have been tested on ARM codes whose size is below 32 KB. Code compression performances have been considered including the compression overheads due to the decoding tables, to the alignment and to the tables for random access to the compressed code. We have analyzed Huffman, Tunstall, LZ77 and Class-based techniques. Optimal performances are provided by Class Based algorithms with an average compression ratio of 64%. For this algorithm we have realized a static decompression engine that provides, after an initial latency of three clock cycles, one 32b instruction for clock cycle.
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ARM7嵌入式系统的代码压缩
对不同的编码压缩算法进行了详细的分析。在32kb以下的ARM代码上测试了算法的性能。我们考虑了代码压缩性能,包括由于解码表、对齐和随机访问压缩代码的表而产生的压缩开销。我们分析了Huffman、Tunstall、LZ77和基于类的技术。基于类的算法提供了最优的性能,平均压缩比为64%。对于该算法,我们实现了一个静态解压缩引擎,该引擎在初始延迟为三个时钟周期后,为时钟周期提供一条32b指令。
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2007 18th European Conference on Circuit Theory and Design
2007 18th European Conference on Circuit Theory and Design
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