Performability Models for Multi-Server Systems with High-Variance Repair Durations

37th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN'07) Pub Date : 2007-06-25 DOI:10.1109/DSN.2007.73

H. Schwefel, Imad Antonios

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引用次数: 11

Abstract

We consider cluster systems with multiple nodes where each server is prone to run tasks at a degraded level of service due to some software or hardware fault. The cluster serves tasks generated by remote clients, which are potentially queued at a dispatcher. We present an analytic queueing model of such systems, represented as an M/MMPP/1 queue, and derive and analyze exact numerical solutions for the mean and tail-probabilities of the queue-length distribution. The analysis shows that the distribution of the repair time is critical for these performability metrics. Additionally, in the case of high-variance repair times, the model reveals so-called blow-up points, at which the performance characteristics change dramatically. Since this blowup behavior is sensitive to a change in model parameters, it is critical for system designers to be aware of the conditions under which it occurs. Finally, we present simulation results that demonstrate the robustness of this qualitative blow-up behavior towards several model variations.

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具有高变异修复时间的多服务器系统的性能模型

我们考虑具有多个节点的集群系统，其中每个服务器容易由于某些软件或硬件故障而以降级的服务级别运行任务。集群为远程客户机生成的任务提供服务，这些任务可能在调度程序中排队。我们给出了一个用M/MMPP/1队列表示的系统的解析排队模型，推导并分析了排队长度分布的均值概率和尾概率的精确数值解。分析表明，修复时间的分布对这些性能指标至关重要。此外，在高方差修理时间的情况下，模型揭示了所谓的爆破点，在那里性能特征发生了巨大变化。由于这种爆炸行为对模型参数的变化很敏感，因此对于系统设计者来说，了解它发生的条件是至关重要的。最后，我们给出了仿真结果，证明了这种定性爆炸行为对几种模型变化的鲁棒性。

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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来源期刊

37th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN'07)

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