Improving Provisioned Power Efficiency in HPC Systems with GPU-CAPP

机译：使用GPU-CAPP提高HPC系统中的预配置电源效率

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In this paper we propose a microarchitectural technique called GPU Constant Average Power Processing (GPU-CAPP) that improves the power utilization of power provisioning-limited systems by using provisioned power as much as possible to accelerate computation on parallel work-loads. GPU-CAPP uses a flexible, decentralized control to ensure fast response times and the scalability required for increasingly parallel GPU designs. We use GPGPU-Sim and GPUWattch to simulate GPU-CAPP and evaluate its capabilities on a subset of the Rodinia benchmark suite. Overall, GPU-CAPP enables speedup by an average of 26% and 12% over equivalent fixed frequency systems at two power targets.

机译：在本文中，我们提出了一种微体系结构技术，称为GPU恒定平均功率处理（GPU-CAPP），该技术通过尽可能多地使用预配置电源来加速并行工作负载上的计算，从而提高了电源配置受限系统的电源利用率。 GPU-CAPP使用灵活的分散控制来确保快速响应时间和日益并行的GPU设计所需的可扩展性。我们使用GPGPU-Sim和GPUWattch来模拟GPU-CAPP，并在Rodinia基准套件的子集上评估其功能。总体而言，在两个电源目标下，GPU-CAPP可使同等固定频率系统的平均速度提高26％和12％。

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《International Conference on High Performance Computing》|2018年|112-122|共11页
会议地点 Bengaluru(IN)
作者
Kramer Straube; Jason Lowe-Power; Christopher Nitta; Matthew Farrens; Venkatesh Akella;
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Graphics processing units; Voltage control; Benchmark testing; High performance computing; Measurement; Regulators; Scalability;

机译：图形处理单元；电压控制；基准测试；高性能计算；测量;监管机构；可扩展性;

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Improving Provisioned Power Efficiency in HPC Systems with GPU-CAPP

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