在HPC平台上容忍非无内存故障的检查点策略

Pub Date : 2023-09-22 DOI:10.1145/3624560
Anne Benoit, Lucas Perotin, Yves Robert, Frédéric Vivien
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引用次数: 0

摘要

本文研究了存在故障的并行应用程序的检查点策略。当故障iat服从指数分布时,最小化总执行时间或makespan的最佳策略是众所周知的,但对于非无内存故障分布,则未知。我们解释了为什么后一个事实在最近的文献中被误解。我们提出了一种通用策略,在下一次故障之前最大化期望效率,并证明该策略实现了渐近最优的最大完工时间,从而建立了任意故障分布的第一最优性结果。通过大量的仿真,我们表明,对于各种故障分布,新策略总是至少与Young/Daly策略一样好。对于具有高婴儿死亡率的分布(例如形状参数k = 2.51的LogNormal或形状参数为0.5的Weibull),执行时间平均除以因子1.9,对于最近部署的平台,最高可达因子4.2。
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Checkpointing strategies to tolerate non-memoryless failures on HPC platforms
This paper studies checkpointing strategies for parallel applications subject to failures. The optimal strategy to minimize total execution time, or makespan, is well known when failure IATs obey an Exponential distribution, but it is unknown for non-memoryless failure distributions. We explain why the latter fact is misunderstood in recent literature. We propose a general strategy that maximizes the expected efficiency until the next failure, and we show that this strategy achieves an asymptotically optimal makespan, thereby establishing the first optimality result for arbitrary failure distributions. Through extensive simulations, we show that the new strategy is always at least as good as the Young/Daly strategy for various failure distributions. For distributions with a high infant mortality (such as LogNormal with shape parameter k = 2.51 or Weibull with shape parameter 0.5), the execution time is divided by a factor 1.9 on average, and up to a factor 4.2 for recently deployed platforms.
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