高性能流水线计算机的时间冗余容错技术研究

[1989] The Nineteenth International Symposium on Fault-Tolerant Computing. Digest of Papers Pub Date : 1989-06-21 DOI:10.1109/FTCS.1989.105616

G. Sohi, M. Franklin, K. Saluja

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引用次数: 82

摘要

一类使用时间冗余的容错技术可能是高性能流水线处理器的可行替代方案。时间冗余容错技术，如移位操作数重计算(RESO)，并不是很流行，部分原因是这种技术的时间开销。虽然每条指令的时间开销可能相当高，特别是在流水线化程度较低的情况下，但是当考虑整个程序的执行并且流水线化程度很高时，开销可能非常小(并且可能可以忽略不计)。采用著名的Livermore环路作为基准，对Cray-1标量单元进行了仿真研究，以确定由于时间冗余容错技术造成的性能损失。结果表明，这些技术的开销在几乎所有情况下都小于10%，并且在大多数情况下可以忽略不计。这表明时间冗余技术可以用于具有多个流水线功能单元的高性能标量处理器的容错。

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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A study of time-redundant fault tolerance techniques for high-performance pipelined computers

A class of fault-tolerance techniques using time redundancy can be a viable alternative for high-performance pipelined processors. Time-redundant fault-tolerance techniques, such as recomputing with shifted operands (RESO), have not been very popular, partly because of the perceived time overhead of such techniques. While the per-instruction time overhead can be quite high, especially if the degree of pipelining is low, the overhead can be very small (and possibly negligible) when the execution of an entire program is considered and the degree of pipelining is high. Simulation studies were carried out on the Cray-1 scalar unit using the well-known Livermore loops as benchmarks to determine the performance loss due to time-redundant fault-tolerance techniques. The results show that the overhead for such techniques is less than 10% in almost all cases and is negligibly small in most cases. This suggests that time-redundant techniques can be useful for fault tolerance in high-performance scalar processors with multiple pipelined functional units.<>

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[1989] The Nineteenth International Symposium on Fault-Tolerant Computing. Digest of Papers

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