可伸缩的硬件支持条件并行化

Zheng Li, Olivier Certner, J. Duato, O. Temam
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引用次数: 6

摘要

基于任务划分/生成的并行编程方法正变得越来越流行,因为它们提供了简单而优雅的并行抽象,同时在传统上由于涉及复杂的控制流和数据结构而难以并行化的工作负载上实现良好的性能。在多个核之间快速分配细粒度任务的能力是这种基于除法的并行编程方法的效率和可伸缩性的关键。由于这个原因,已经提出了几种对工作窃取环境的硬件支持。然而,它们都依赖于一个中央硬件结构来在核心之间分配任务,这阻碍了这些方案的可扩展性和效率。在本文中,我们将重点放在条件除法上,这是一种基于除法的并行方法,与窃取工作的方法相比,它提供了额外的好处,即将用户从处理任务粒度中解放出来,并且不会因为大量的小任务而阻塞硬件资源。对于这种基于划分的方法,我们表明可以设计硬件支持来加速完全依赖于本地信息的任务划分,从而表现出良好的可伸缩性属性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scalable hardware support for conditional parallelization
Parallel programming approaches based on task division/-spawning are getting increasingly popular because they provide for a simple and elegant abstraction of parallelization, while achieving good performance on workloads which are traditionally complex to parallelize due to the complex control flow and data structures involved. The ability to quickly distribute fine-granularity tasks among many cores is key to the efficiency and scalability of such division-based parallel programming approaches. For this reason, several hardware supports for work stealing environments have already been proposed. However, they all rely on a central hardware structure for distributing tasks among cores, which hampers the scalability and efficiency of these schemes. In this paper, we focus on conditional division, a division-based parallel approach which provides the additional benefit, over work-stealing approaches, of releasing the user from dealing with task granularity and which does not clog hardware resources with an exceedingly large number of small tasks. For this type of division-based approaches, we show that it is possible to design hardware support for speeding up task division that entirely relies on local information, and which thus exhibits good scalability properties.
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