使用硬件局部性(hwloc)管理异构集群节点的拓扑

Brice Goglin
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引用次数: 36

摘要

现代计算平台越来越复杂,有多核、共享缓存和NUMA架构。并行应用程序开发人员在期望在这些平台上获得良好的效率之前,必须考虑局部性。因此,非常需要一种便携式工具来收集和公开这些信息。Hardware Locality项目(hwloc)基于CPU和内存资源的包含和位置提供了硬件的树表示。它已经广泛应用于高性能计算中基于亲和力的任务放置。在本文中,我们将介绍如何扩展hwloc来描述计算和内存资源以外的其他资源。实际上,I/O设备局部性正在成为局部性的另一个重要方面,因为高性能gpu、网络或InfiniBand接口拥有对某些核心和内存库的特权访问。hwloc将这些知识集成到它的拓扑表示中,并提供了一个互操作性API来扩展现有的库,如CUDA和本地信息。我们还描述了hwloc现在如何帮助进程管理器和批调度程序处理多个集群节点的拓扑结构,以及如何通过压缩来获得更好的可伸缩性,最多可扩展到数千个节点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Managing the topology of heterogeneous cluster nodes with hardware locality (hwloc)
Modern computing platforms are increasingly complex, with multiple cores, shared caches, and NUMA architectures. Parallel applications developers have to take locality into account before they can expect good efficiency on these platforms. Thus there is a strong need for a portable tool gathering and exposing this information. The Hardware Locality project (hwloc) offers a tree representation of the hardware based on the inclusion and localities of the CPU and memory resources. It is already widely used for affinity-based task placement in high performance computing. In this article we present how hwloc is extended to describe more than computing and memory resources. Indeed, I/O device locality is becoming another important aspect of locality since high performance GPUs, network or InfiniBand interfaces possess privileged access to some of the cores and memory banks. hwloc integrates this knowledge into its topology representation and offers an interoperability API to extend existing libraries such as CUDA with locality information. We also describe how hwloc now helps process managers and batch schedulers to deal with the topology of multiple cluster nodes, together with compression for better scalability up to thousands of nodes.
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