Halsur V. Sreekantaswamy, N. Goldstein, A. Wagner, S. Chanson
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引用次数: 0
摘要
本文介绍了UBC正在开发的基于转译器的交互式并行化系统TIPS的两个主要组件。该系统运行在一个74节点的透光系统上,该透光系统由具有多个接口的交叉开关连接到像SUN-4这样的主机。它使用Trollaus和logic systems C编译器。描述的第一个组件是TMRP,它是一种与拓扑无关的映射工具。TMAP的目标是使映射过程自动化,并使其独立于底层体系结构的更改。它集成了两大软件:Trollivs和Prep-p。我们描述了它的设计,并讨论了试图实现机器独立环境的具体问题。第二个com。所描述的特性是TRES,一种更高级别的资源管理工具。TRES基于争论的参数化模型,该模型用于预测性能。优化机器资源的使用。用户只需要指定模型(即编程,范式)和要执行的计算任务。TRES确定要使用的最优拓扑和处理器数量。TMAP系统使用这些信息。
Resource Management in a Large Reconfigurable Transputer-based System
This paper describes two of the intijor components of TIPS, a Transputer-based Iiirteractive Parallelizing System, under development at UBC. The system runs on a 74 node transpuier system iiilercorinectcd by crossbar switches with inulliple liiihs to ike host, a SUN-4. It uses Trollaus with the Logical Syslems C compiler. The first component described is TMRP, a topology independent mapping facility. TMAP’s objective is to automate the mapping process, and muhe it independent from changes an the underlying architecture. It integrates two large pieces of soft,ware, Trollivs and Prep-p. We describe its design and discuss specific problems in trying to achieve a machine iudependent environment. The second com.poiient described is TRES, a higher level reso’urce managernelit facility. TRES is based on parameterized models of coniputation which are used 20 predict perforni.nnce and optimize the use of machine resources. The user need only specify the model (i.e. prograinmin,g paradigm) and the computational task to be performed. TRES determines the optimal topology and number of processors to use. This inforniation is used by the TMAP system.
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