使用可变到固定编码的VLIW处理器的代码压缩

15th International Symposium on System Synthesis, 2002. Pub Date : 2002-10-02 DOI:10.1145/581199.581231

H. Lekatsas, W. Wolf, Yuan Xie

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引用次数: 66

摘要

在嵌入式计算系统领域，内存一直是最受限制的资源之一。代码压缩已经被提出作为解决这个问题的一种方法。以前的工作使用固定到可变的编码算法，将固定长度的比特序列转换为可变长度的比特序列。在本文中，我们提出了使用可变到固定(V2F)长度编码的代码压缩方案。我们还提出了一种指令总线编码方案，可以有效地降低总线功耗。尽管代码压缩算法可以应用于任何嵌入式处理器，但它更倾向于VLIW体系结构，因为VLIW体系结构需要高带宽指令预取机制来提供每个周期的多个操作。实验表明，在IA-64和TMS320C6x上使用无内存V2F编码的压缩比分别在72.7%和82.5%左右。对于IA-64和TMS320C6x，马尔可夫V2F编码可以实现更好的压缩比，分别达到56%和70%。一种贪婪的码字分配算法可以降低总线功耗，这种降低取决于所使用的概率模型。

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Code compression for VLIW processors using variable-to-fixed coding

Memory has been one of the most restricted resources in the embedded computing system domain. Code compression has been proposed as a solution to this problem. Previous work used fixed-to-variable coding algorithms that translate fixed-length bit sequences into variable-length bit sequences. In this paper, we propose code compression schemes that use variable-to-fixed (V2F) length coding. We also propose an instruction bus encoding scheme, which can effectively reduce the bus power consumption. Though the code compression algorithm can be applied to any embedded processor, it favors VLIW architectures because VLIW architectures require a high-bandwidth instruction pre-fetch mechanism to supply multiple operations per cycle. Experiments show that the compression ratios using memoryless V2F coding for IA-64 and TMS320C6x are around 72.7% and 82.5% respectively. Markov V2F coding can achieve better compression ratio up to 56% and 70% for IA-64 and TMS320C6x respectively. A greedy algorithm for codeword assignment can reduce the bus power consumption and the reduction depends on the probability model used.

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15th International Symposium on System Synthesis, 2002.

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