Enhancing data locality of the conjugate gradient method for high-order matrix-free finite-element implementations

IF 3.5 3区计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE International Journal of High Performance Computing Applications Pub Date : 2022-05-18 DOI:10.1177/10943420221107880

M. Kronbichler, D. Sashko, Peter Munch

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引用次数: 13

Abstract

This work investigates a variant of the conjugate gradient (CG) method and embeds it into the context of high-order finite-element schemes with fast matrix-free operator evaluation and cheap preconditioners like the matrix diagonal. Relying on a data-dependency analysis and appropriate enumeration of degrees of freedom, we interleave the vector updates and inner products in a CG iteration with the matrix-vector product with only minor organizational overhead. As a result, around 90% of the vector entries of the three active vectors of the CG method are transferred from slow RAM memory exactly once per iteration, with all additional access hitting fast cache memory. Node-level performance analyses and scaling studies on up to 147k cores show that the CG method with the proposed performance optimizations is around two times faster than a standard CG solver as well as optimized pipelined CG and s-step CG methods for large sizes that exceed processor caches, and provides similar performance near the strong scaling limit.

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提高高阶无矩阵有限元实现的共轭梯度法的数据局部性

本文研究了共轭梯度(CG)方法的一种变体，并将其嵌入到具有快速无矩阵算子求值和廉价前置条件(如矩阵对角)的高阶有限元格式中。依靠数据依赖分析和适当的自由度枚举，我们将矢量更新和内部乘积与矩阵矢量乘积在CG迭代中交织在一起，只有很小的组织开销。因此，CG方法的三个活动向量的大约90%的向量条目在每次迭代中从慢速RAM存储器中传输一次，而所有额外的访问都要访问快速缓存存储器。节点级性能分析和高达147k核的缩放研究表明，具有所提出的性能优化的CG方法比标准CG求解器以及优化的流水线CG和s-step CG方法快两倍左右，并且在接近强缩放限制的情况下提供类似的性能。

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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来源期刊

International Journal of High Performance Computing Applications 工程技术-计算机：跨学科应用

CiteScore

6.10

自引率

6.50%

发文量

审稿时长

>12 weeks

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