Exploiting distributed and shared memory hierarchies with Hitmap

Ana Moreton-Fernandez, Arturo González-Escribano, D. Ferraris
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引用次数: 10

Abstract

Current multicomputers are typically built as interconnected clusters of shared-memory multicore computers. A common programming approach for these clusters is to simply use a message-passing paradigm, launching as many processes as cores available. Nevertheless, to better exploit the scalability of these clusters and highly-parallel multicore systems, it is needed to efficiently use their distributed- and shared-memory hierarchies. This implies to combine different programming paradigms and tools at different levels of the program design. This paper presents an approach to ease the programming for mixed distributed and shared memory parallel computers. The coordination at the distributed memory level is simplified using Hitmap, a library for distributed computing using hierarchical tiling of data structures. We show how this tool can be integrated with shared-memory programming models and automatic code generation tools to efficiently exploit the multicore environment of each multicomputer node. This approach allows to exploit the most appropriate techniques for each model, easily generating multilevel parallel programs that automatically adapt their communication and synchronization structures to the target machine. Our experimental results show how this approach mimics or even improves the best performance results obtained with manually optimized codes using pure MPI or OpenMP models.
利用Hitmap的分布式和共享内存层次结构
当前的多台计算机通常被构建为共享内存多核计算机的互连集群。这些集群的一种常见编程方法是简单地使用消息传递范式,启动尽可能多的进程。然而,为了更好地利用这些集群和高度并行的多核系统的可伸缩性,需要有效地利用它们的分布式和共享内存层次结构。这意味着在程序设计的不同层次上结合不同的编程范例和工具。本文提出了一种简化分布式和共享内存混合并行计算机编程的方法。使用Hitmap简化了分布式内存级的协调,Hitmap是一个使用数据结构分层平铺的分布式计算库。我们展示了该工具如何与共享内存编程模型和自动代码生成工具集成,以有效地利用每个多计算机节点的多核环境。这种方法允许为每个模型开发最合适的技术,轻松地生成多层并行程序,自动调整其通信和同步结构以适应目标机器。我们的实验结果表明,这种方法如何模仿甚至提高使用纯MPI或OpenMP模型手动优化代码获得的最佳性能结果。
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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