网格中性能一致性的静态和动态过度供应策略

N. Yigitbasi, D. Epema
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引用次数: 3

摘要

当网格用户在不同时间提交类似的工作负载时,他们观察到的性能变化很大,这种情况并不少见。从用户的角度来看,这种不一致的性能是不可取的,它会导致用户的不满和困惑。我们使用过度配置来解决这个性能不一致的问题,过度配置通过一个我们称之为过度配置因素的因素来增加系统容量。尽管过度配置并不符合成本效益,但它的简单性使其成为提供性能保证的首选方法。因此,在这项工作中,我们对电网中的过度供应进行了现实的研究。为此,我们首先给出静态和动态过度供应策略的性能和成本评估。我们发现,与静态策略相比,我们使用计算云的动态过度供应策略以更低的成本提供了更好的一致性,并且超过一定值的过度供应(在我们的示例中,是指在没有显著一致性改进的情况下)会导致显著的成本。然后,我们设计并评估了一个反馈控制系统,以动态确定为电网用户提供性能保证的参数。我们表明,我们的系统动态地决定,并在满足性能要求的作业数量方面提供了比初始系统显著的改进,高达67%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Static and dynamic overprovisioning strategies for performance consistency in grids
It is not uncommon that grid users observe highly variable performance when they submit similar workloads at different times. From the users' point of view, such inconsistent performance is undesirable, and it leads to user dissatisfaction and confusion. We tackle this performance inconsistency problem using overprovisioning which is increasing the system capacity by a factor that we call the overprovisioning factor (к). Although overprovisioning is not cost effective, its simplicity makes it the preferred method for providing performance guarantees. Hence in this work, we present a realistic investigation of overprovisioning in grids. Towards this end, first we present a performance and cost evaluation of static and dynamic overprovisioning strategies. We find that the dynamic overprovisioning strategy, for which we use computing clouds, provides better consistency with lower costs compared to static strategies, and overprovisioning beyond a certain value of к (in our case к=2.5) incurs significant costs without significant consistency improvements. Then, we design and evaluate a feedback-controlled system to dynamically determine к to give performance guarantees to grid users. We show that our system determines к dynamically and provides significant improvements over the initial system, as high as 67%, in the number of jobs that meet the performance requirements.
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