Evaluation of a high performance code compression method

Evaluation of a high performance code compression method

Compressing the instructions of an embedded program is important for cost-sensitive low-power control-oriented embedded computing. A number of compression schemes have been proposed to reduce program size. However, the increased instruction density has an accompanying performance cost because the in...

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Bibliographic Details
Published in:MICRO-32. Proceedings of the 32nd Annual ACM/IEEE International Symposium on Microarchitecture pp. 93 - 102
Main Authors: Lefurgy, C., Piccininni, E., Mudge, T.
Format: Conference Proceeding
Language:English
Published: IEEE 1999
Subjects:
Advertising
Costs
Hardware
Instruction sets
Optimizing compilers
Performance analysis
Permission
Prefetching
Pulp manufacturing
Reduced instruction set computing
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Summary:Compressing the instructions of an embedded program is important for cost-sensitive low-power control-oriented embedded computing. A number of compression schemes have been proposed to reduce program size. However, the increased instruction density has an accompanying performance cost because the instructions must be decompressed before execution. In this paper, we investigate the performance penalty of a hardware-managed code compression algorithm recently introduced in IBM's PowerPC 405. This scheme is the first to combine many previously proposed code compression techniques, making it an ideal candidate for study. We find that code compression with appropriate hardware optimizations does not have to incur much performance loss. Furthermore, our studies show this holds for architectures with a wide range of memory configurations and issue widths. Surprisingly, we find that a performance increase over native code is achievable in many situations.
ISBN:9780769504377
076950437X
ISSN:1072-4451
DOI:10.1109/MICRO.1999.809447