AµFLIPS:一种具有灵活时间流水线阶段的异步微处理器

2022 25th International Symposium on Design and Diagnostics of Electronic Circuits and Systems (DDECS) Pub Date : 2022-04-06 DOI:10.1109/ddecs54261.2022.9770113

Zaheer Tabassam, S. R. Naqvi, A. Steininger

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引用次数: 0

摘要

AµFLIPS是一种异步微处理器，具有新颖的管道寄存器组织，可以使用同步危害解决方案来解决数据和控制危害。现有的研究声称，同步系统中处理数据和控制危险的机制并不直接适用于异步流水线处理器，因为后者具有分布式控制的性质。因此，大多数MIPS的异步等效都提出了新的危险解决方法，这在性能和复杂性方面增加了开销。在这项工作中，我们通过提出一种新的流水线寄存器组织来建立一个反叙事，该组织与灵活的时钟生成器保持同步，而不是刚性时钟，这也允许我们利用同步危害解决方法。我们的模拟结果(使用Balsa)表明，与现有的异步处理器相比，执行时间提高了20.8%。

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AµFLIPS: An Asynchronous Microprocessor With FLexIbly-timed Pipeline Stages

AµFLIPS is an asynchronous microprocessor with novel pipeline register organization to resolve data and control hazards using synchronous hazard resolving schemes. Existing works claim that mechanisms for handling data and control hazards in synchronous systems are not directly applicable to asynchronous pipelined processors, because of distributed control nature of the latter. As a result of that, most asynchronous equivalents of MIPS propose novel hazard resolution methods, adding an overhead in terms of performance and complexity. In this work, we build a counter narrative by proposing a novel pipelined register organization that maintains synchrony with a flexible clock generator instead of the rigid clock, which also allow us to utilize the synchronous hazard resolving methods. Our simulation results – using Balsa – suggest 20.8% improvement in execution time as compared to one of the existing asynchronous processors.

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2022 25th International Symposium on Design and Diagnostics of Electronic Circuits and Systems (DDECS)

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