低精度浮点运算对数字编码的有效性:以功耗为例

Proceedings of the International Conference on High Performance Computing in Asia-Pacific Region Pub Date : 2020-01-15 DOI:10.1145/3368474.3368492

Ryuichi Sakamoto, Masaaki Kondo, K. Fujita, T. Ichimura, K. Nakajima

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引用次数: 6

摘要

低精度浮点算法以较窄的位宽降低数值精度来进行计算，因为它可以提高数值程序的性能而受到人们的关注。通过对低精度数据进行计算，可以实现内存占用小、计算速度快、节能等优点。然而，关于低精度算法对数值编码功率和能耗的影响的研究并不多见。在本研究中，我们研究了在高性能计算应用中积极使用低精度算法来提高功率效率。在我们的评估中，我们分析了泊松方程的功率特性以及双精度和单精度浮点运算的地面运动模拟程序。我们证实，通过使用低精度算法可以提高能源效率，但它受到数据分割和OpenMP线程数量等参数的严重影响。

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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The Effectiveness of Low-Precision Floating Arithmetic on Numerical Codes: A Case Study on Power Consumption

The low-precision floating point arithmetic that performs computation by reducing numerical accuracy with narrow bit-width is attracting since it can improve the performance of the numerical programs. Small memory footprint, faster computing speed, and energy saving are expected by performing calculation with low precision data. However, there have not been many studies on how low-precision arithmetics affects power and energy consumption of numerical codes. In this study, we investigate the power efficiency improvement by aggressively using low-precision arithmetics for HPC applications. In our evaluations, we analyze power characteristics of the Poisson's equation and the ground motion simulation programs with double precision and single precision floating point arithmetics. We confirm that energy efficiency improves by using low-precision arithmetics but it is heavily influenced by parameters such as data division and the number of OpenMP threads.

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Proceedings of the International Conference on High Performance Computing in Asia-Pacific Region

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