Effective sampling-driven performance tools for GPU-accelerated supercomputers

2013 SC - International Conference for High Performance Computing, Networking, Storage and Analysis (SC) Pub Date : 2013-11-17 DOI:10.1145/2503210.2503299

Milind Chabbi, K. Murthy, M. Fagan, J. Mellor-Crummey

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引用次数: 24

Abstract

Performance analysis of GPU-accelerated systems requires a system-wide view that considers both CPU and GPU components. In this paper, we describe how to extend system-wide, sampling-based performance analysis methods to GPU-accelerated systems. Since current GPUs do not support sampling, our implementation required careful coordination of instrumentation-based performance data collection on GPUs with sampling-based methods employed on CPUs. In addition, we also introduce a novel technique for analyzing systemic idleness in CPU/GPU systems. We demonstrate the effectiveness of our techniques with application case studies on Titan and Keeneland. Some of the highlights of our case studies are: 1) we improved performance for LULESH 1.0 by 30%, 2) we identified a hardware performance problem on Keeneland, 3) we identified a scaling problem in LAMMPS derived from CUDA initialization, and 4) we identified a performance problem that is caused by GPU synchronization operations that suffer delays due to blocking system calls.

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有效的采样驱动的性能工具，用于gpu加速的超级计算机

GPU加速系统的性能分析需要考虑CPU和GPU组件的全系统视图。在本文中，我们描述了如何将基于采样的系统范围性能分析方法扩展到gpu加速系统。由于当前的gpu不支持采样，我们的实现需要仔细协调gpu上基于仪器的性能数据收集与cpu上采用的基于采样的方法。此外，我们还介绍了一种新的技术来分析CPU/GPU系统中的系统空闲。我们通过对泰坦和基恩兰的应用案例研究证明了我们技术的有效性。我们案例研究的一些亮点是:1)我们将LULESH 1.0的性能提高了30%，2)我们确定了Keeneland上的硬件性能问题，3)我们确定了由CUDA初始化引起的LAMMPS缩放问题，以及4)我们确定了由GPU同步操作引起的性能问题，该操作由于阻塞系统调用而遭受延迟。

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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2013 SC - International Conference for High Performance Computing, Networking, Storage and Analysis (SC)

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