IACM: Integrated adaptive cache management for high-performance and energy-efficient GPGPU computing

2016 IEEE 34th International Conference on Computer Design (ICCD) Pub Date : 2016-10-01 DOI:10.1109/ICCD.2016.7753308

Kyu Yeun Kim, Jinsu Park, Woongki Baek

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引用次数: 6

Abstract

Hardware caches are widely employed in GPGPUs to achieve higher performance and energy efficiency. Incorporating hardware caches in GPGPUs, however, does not immediately guarantee enhanced performance and energy efficiency due to high cache contention and thrashing. To address the inefficiency of GPGPU caches, various adaptive techniques (e.g., warp limiting) have been proposed. However, relatively little work has been done in the context of creating an architectural framework that tightly integrates adaptive cache management techniques and investigating their effectiveness and interaction. To bridge this gap, we propose IACM, integrated adaptive cache management for high-performance and energy-efficient GPGPU computing. IACM integrates the state-of-the-art adaptive cache management techniques (i.e., cache indexing, bypassing, and warp limiting) in a unified architectural framework. Our quantitative evaluation demonstrates that IACM significantly improves the performance and energy efficiency of various GPGPU workloads over the baseline architecture (i.e., 98.1% and 61.9% on average).

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IACM:集成自适应缓存管理，用于高性能和节能的GPGPU计算

硬件缓存广泛应用于gpgpu中，以实现更高的性能和能效。然而，在gpgpu中集成硬件缓存并不能立即保证性能和能源效率的提高，因为高速缓存争用和抖动比较高。为了解决GPGPU缓存效率低下的问题，已经提出了各种自适应技术(例如，warp限制)。然而，在创建紧密集成自适应缓存管理技术的体系结构框架并研究其有效性和交互性方面，所做的工作相对较少。为了弥补这一差距，我们提出了IACM，用于高性能和节能GPGPU计算的集成自适应缓存管理。IACM在一个统一的架构框架中集成了最先进的自适应缓存管理技术(例如，缓存索引、绕过和翘曲限制)。我们的定量评估表明，与基准架构相比，IACM显著提高了各种GPGPU工作负载的性能和能源效率(即平均提高98.1%和61.9%)。

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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2016 IEEE 34th International Conference on Computer Design (ICCD)

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