并行I/O工作负载的自相似性研究

Qiang Zoll, Yifeng Zhu, D. Feng
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引用次数: 12

摘要

在通过跟踪驱动仿真对并行存储系统进行性能评估时,如何准确表征和模拟实际应用中的I/O行为是一个具有挑战性的问题。以I/O密集型科学应用为重点,对I/O请求间到达时间的相关性研究表明,有必要进一步研究并行I/O到达的自相似性。本文分析了在大型超级计算机中收集的几个I/O轨迹,得出并行I/O表现出统计上的自相似行为的结论。本文提出并验证了一种新的随机模型来代替马尔可夫模型来准确地模拟并行I/O突发。该模型可用于预测实际系统中的I/O工作负载,并在仿真研究中生成可靠的综合I/O序列。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A study of self-similarity in parallel I/O workloads
A challenging issue in performance evaluation of parallel storage systems through trace-driven simulation is to accurately characterize and emulate I/O behaviors in real applications. The correlation study of inter-arrival times between I/O requests, with an emphasis on I/O-intensive scientific applications, shows the necessity to further study the self-similarity of parallel I/O arrivals. This paper analyzes several I/O traces collected in large-scale supercomputers and concludes that parallel I/Os exhibit statistically self-similar like behavior. Instead of Markov model, a new stochastic model is proposed and validated in this paper to accurately model parallel I/O burstiness. This model can be used to predicting I/O workloads in real systems and generate reliable synthetic I/O sequences in simulation studies.
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