Using Cache or Credit for Parallel Ranking and Selection

IF 0.7 4区 计算机科学 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Harun Avci, Barry L. Nelson, Eunhye Song, Andreas Wächter
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引用次数: 1

Abstract

In this paper, we focus on ranking and selection procedures that sequentially allocate replications to systems by applying some acquisition function. We propose an acquisition function, called gCEI, which exploits the gradient of the complete expected improvement with respect to the number of replications. We prove that the gCEI procedure, which adopts gCEI as the acquisition function in a serial computing environment, achieves the asymptotically optimal static replication allocation of Glynn and Juneja in the limit under a normality assumption. We also propose two procedures, called caching and credit, that extend any acquisition-function-based procedure in a serial environment into both synchronous and asynchronous parallel environments. While allocating replications to systems, both procedures use persistence forecasts for the unavailable outputs of the currently running replications, but differ in usage of the available outputs. We prove that under certain assumptions, the caching procedure achieves the same asymptotic allocation as in the serial environment. A similar result holds for the credit procedure using gCEI as the acquisition function. In terms of efficiency and effectiveness, the credit procedure empirically performs as well as the caching procedure despite not carefully controlling the output history as the caching procedure does, and is faster than the serial version without any number-of-replications penalty due to using persistence forecasts. Both procedures are designed to solve small-to-medium-sized problems on computers with a modest number of processors, such as laptops and desktops as opposed to high-performance clusters, and are superior to state-of-the-art parallel procedures in this setting.
使用缓存或信用进行并行排序和选择
在本文中,我们关注的是排序和选择过程,通过应用一些获取函数,顺序地将复制分配给系统。我们提出了一个称为gCEI的获取函数,它利用了相对于复制数量的完全预期改进的梯度。我们证明了在串行计算环境下,采用gCEI作为获取函数的gCEI程序,在正态性假设的极限下,实现了Glynn和Juneja静态复制分配的渐近最优。我们还提出了两个过程,称为缓存和信用,将串行环境中任何基于获取函数的过程扩展到同步和异步并行环境中。在向系统分配复制时,这两个过程都对当前运行的复制的不可用输出使用持久性预测,但对可用输出的使用有所不同。在一定的假设条件下,证明了缓存过程与串行环境下的渐近分配是相同的。使用gCEI作为获取函数的信用过程也有类似的结果。在效率和有效性方面,信用过程的经验表现与缓存过程一样好,尽管不像缓存过程那样仔细控制输出历史,并且比串行版本更快,而且由于使用持久性预测而没有任何复制数量的损失。这两个过程都被设计用于解决处理器数量有限的计算机(如笔记本电脑和台式机,而不是高性能集群)上的中小型问题,并且在这种设置中优于最先进的并行过程。
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
ACM Transactions on Modeling and Computer Simulation
ACM Transactions on Modeling and Computer Simulation 工程技术-计算机:跨学科应用
CiteScore
2.50
自引率
22.20%
发文量
29
审稿时长
>12 weeks
期刊介绍: The ACM Transactions on Modeling and Computer Simulation (TOMACS) provides a single archival source for the publication of high-quality research and developmental results referring to all phases of the modeling and simulation life cycle. The subjects of emphasis are discrete event simulation, combined discrete and continuous simulation, as well as Monte Carlo methods. The use of simulation techniques is pervasive, extending to virtually all the sciences. TOMACS serves to enhance the understanding, improve the practice, and increase the utilization of computer simulation. Submissions should contribute to the realization of these objectives, and papers treating applications should stress their contributions vis-á-vis these objectives.
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