George Teodoro, Tahsin M Kurc, Tony Pan, Lee A D Cooper, Jun Kong, Patrick Widener, Joel H Saltz
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引用次数: 0
Abstract
The past decade has witnessed a major paradigm shift in high performance computing with the introduction of accelerators as general purpose processors. These computing devices make available very high parallel computing power at low cost and power consumption, transforming current high performance platforms into heterogeneous CPU-GPU equipped systems. Although the theoretical performance achieved by these hybrid systems is impressive, taking practical advantage of this computing power remains a very challenging problem. Most applications are still deployed to either GPU or CPU, leaving the other resource under- or un-utilized. In this paper, we propose, implement, and evaluate a performance aware scheduling technique along with optimizations to make efficient collaborative use of CPUs and GPUs on a parallel system. In the context of feature computations in large scale image analysis applications, our evaluations show that intelligently co-scheduling CPUs and GPUs can significantly improve performance over GPU-only or multi-core CPU-only approaches.
过去十年间,随着作为通用处理器的加速器的引入,高性能计算的模式发生了重大转变。这些计算设备以较低的成本和功耗提供了极高的并行计算能力,将当前的高性能平台转变为配备 CPU 和 GPU 的异构系统。虽然这些混合系统实现的理论性能令人印象深刻,但实际利用这种计算能力仍然是一个非常具有挑战性的问题。大多数应用仍然部署在 GPU 或 CPU 上,导致其他资源利用不足或未被充分利用。在本文中,我们提出、实施并评估了一种性能感知调度技术,并对其进行了优化,以便在并行系统中高效协同使用 CPU 和 GPU。在大规模图像分析应用中的特征计算方面,我们的评估结果表明,与仅使用 GPU 或多核 CPU 的方法相比,智能地共同调度 CPU 和 GPU 可以显著提高性能。
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