基于插值的异构系统多参数性能建模方法

D. Rudolph, G. Stitt
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引用次数: 7

摘要

为了有效地为新兴的异构体系结构优化应用程序,编译器和综合工具必须执行一项具有挑战性的任务,即针对不同数量和类型的计算资源评估不同实现和优化的性能。存在许多性能预测技术,但这些方法都是针对特定资源或应用程序的,并且通常不能预测所有输入的组合。本文介绍了一种基于采样和插值的多参数性能建模方法。这种方法可以与模拟或观察到的执行时间数据结合使用,以便对任何功能、任何资源和任何输入组合快速执行性能估计。通过在各种函数和计算资源上评估基于Kriging的插值器,我们确定了该方法精度的界限,并表明利用Kriging的基于插值的方法可以有效地为大多数应用程序建模执行时间。我们还表明,Kriging是一种非常有效的执行时间插值技术,并且可以比最近邻插值或径向基函数插值精度高出四个数量级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An interpolation-based approach to multi-parameter performance modeling for heterogeneous systems
To effectively optimize applications for emerging heterogeneous architectures, compilers and synthesis tools must perform the challenging task of estimating the performance of different implementations and optimizations for different numbers and types of computational resources. Many performance-prediction techniques exist, but those approaches are specific to particular resources or applications, and are often not capable of prediction for all combinations of inputs. In this paper, we introduce an approach to multi-parameter performance modeling based on sampling and interpolation. This approach can be used in conjunction with execution time data, simulated or observed, to quickly perform performance estimation for any function, on any resource, with any combination of inputs. By evaluating a Kriging-based interpolator on a variety of functions and computational resources, we determine bounds on the accuracy of this approach, and show that an interpolation-based approach utilizing Kriging can effectively model execution time for most applications. We also show that Kriging is a highly effective interpolation technique for execution time, and can be up to four orders of magnitude more accurate than nearest-neighbor interpolation or radial basis function interpolation.
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