SMiPE: Estimating the Progress of Recurring Iterative Distributed Dataflows

Jannis Koch, L. Thamsen, Florian Schmidt, O. Kao
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引用次数: 6

Abstract

Distributed dataflow systems such as Apache Spark allow the execution of iterative programs at large scale on clusters. In production use, programs are often recurring and have strict latency requirements. Yet, choosing appropriate resource allocations is difficult as runtimes are dependent on hard-to-predict factors, including failures, cluster utilization and dataset characteristics. Offline runtime prediction helps to estimate resource requirements, but cannot take into account inherent variance due to, for example, changing cluster states. We present SMiPE, a system estimating the progress of iterative dataflows by matching a running job to previous executions based on similarity, capturing properties such as convergence, hardware utilization and runtime. SMiPE is not limited to a specific framework due to its black-box approach and is able to adapt to changing cluster states reflected in the current job’s statistics. SMiPE automatically adapts its similarity matching to algorithm-specific profiles by training parameters on the job history. We evaluated SMiPE with three iterative Spark jobs and nine datasets. The results show that SMiPE is effective in choosing useful historic runs and predicts runtimes with a mean relative error of 9.1% to 13.1%.
SMiPE:估计循环迭代分布式数据流的进展
像Apache Spark这样的分布式数据流系统允许在集群上大规模地执行迭代程序。在生产使用中,程序通常是重复出现的,并且具有严格的延迟要求。然而,选择适当的资源分配是困难的,因为运行时依赖于难以预测的因素,包括故障、集群利用率和数据集特征。离线运行时预测有助于估计资源需求,但不能考虑由于诸如集群状态变化等原因而产生的固有方差。我们提出了smempe,一个通过基于相似性将正在运行的作业与之前的执行相匹配来估计迭代数据流进度的系统,捕获诸如收敛性,硬件利用率和运行时间等属性。SMiPE并不局限于特定的框架,因为它采用了黑盒方法,并且能够适应当前作业统计数据中反映的集群状态的变化。smype通过训练工作历史上的参数,自动将其相似度匹配适应算法特定的配置文件。我们使用3个迭代Spark作业和9个数据集来评估smype。结果表明,smype在选择有用的历史运行和预测运行时间方面是有效的,平均相对误差为9.1%到13.1%。
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