在千兆网络上分发化学过程优化应用程序

R. Clay, P. Steenkiste
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引用次数: 6

摘要

我们评估了千兆网络对分布式化工过程优化应用实施的影响。优化问题是一个随机线性分配问题,并通过PSC的思维机器CM-2 (SIMD)和Cray C-90(矢量)计算机和CMU的Intel iWarp (MIMD)系统进行求解,并通过千兆Nectar测试平台连接。我们报告了跨异构系统集分发应用程序的经验,并提供了显示应用程序的通信需求如何依赖于应用程序结构的度量。我们使用详细的跟踪来构建应用程序性能模型,该模型可用于估计不同计算机系统和网络组合下应用程序的运行时间。我们的结果表明,应用程序受益于高速网络,并且随着计算机系统变得越来越快,对高网络吞吐量的需求也在增加。我们还观察到,支持高突发速率是至关重要的,尽管构建应用程序使通信与计算重叠可以放松带宽需求。
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Distributing a Chemical Process Optimization Application Over a Gigabit Network
We evaluate the impact of a gigabit network on the implementation of a distributed chemical process optimization application. The optimization problem is formulated as a stochastic Linear Assignment Problem and was solved using the Thinking Machines CM-2 (SIMD) and the Cray C-90 (vector) computers at PSC, and the Intel iWarp (MIMD) system at CMU, connected by the Gigabit Nectar testbed. We report our experience distributing the application across this heterogeneous set of systems and present measurements that show how the communication requirements of the application depend on the structure of the application. We use detailed traces to build an application performance model that can be used to estimate the elapsed time of the application for different computer system and network combinations. Our results show that the application benefits from the high-speed network, and that the need for high network throughput is increasing as computer systems get faster. We also observed that supporting high burst rates is critical, although structuring the application so that communication is overlapped with computation relaxes the bandwidth requirements.
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