数学优化的混合精度方法学

2012 IEEE 20th International Symposium on Field-Programmable Custom Computing Machines Pub Date : 2012-04-29 DOI:10.1109/FCCM.2012.16

G. C. Chow, W. Luk, P. Leong

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引用次数: 1

摘要

本文介绍了一种新的混合精度数学优化方法。它涉及使用降低精度的FPGA优化器来搜索包含全局最优的潜在区域，并在通用处理器(GPP)上使用双精度优化器来验证结果。提出了一种在FPGA和GPP组成的可重构加速器上确定混合精度方法参数的经验方法。我们使用一组优化基准来评估我们方法的有效性。使用我们的混合精度方法和现代可重构加速器，我们可以比四核优化器快1.7到6倍地定位全局优化。与四核优化器相比，混合精度优化器在单位时间内搜索的起始向量多出40.3倍，其中只有0.7%到2.7%的搜索是使用GPP双精度优化器进行优化的。所提出的方法还允许我们加速具有更复杂函数的问题或解决涉及更高维度的问题。

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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A Mixed Precision Methodology for Mathematical Optimisation

This paper introduces a novel mixed precision methodology for mathematical optimisation. It involves the use of reduced precision FPGA optimisers for searching potential regions containing the global optimum, and double precision optimisers on a general purpose processor (GPP) for verifying the results. An empirical method is proposed to determine parameters of the mixed precision methodology running on a reconfigurable accelerator consisting of FPGA and GPP. The effectiveness of our approach is evaluated using a set of optimisation benchmarks. Using our mixed precision methodology and a modern reconfigurable accelerator, we can locate the global optima 1.7 to 6 times faster compared with quad-core optimiser. The mixed precision optimisations search up to 40.3 times more starting vector per unit time compared with quad core optimisers and only 0.7% to 2.7% of these searches are refined using GPP double precision optimisers. The proposed methodology also allows us to accelerate problems with more complicated functions or to solve problems involving higher dimensions.

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2012 IEEE 20th International Symposium on Field-Programmable Custom Computing Machines

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