Cache-oblivious Hilbert Curve-based Blocking Scheme for Matrix Transposition

IF 2.7 1区 数学 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING
J. N. F. Alves, L. Russo, Alexandre P. Francisco
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引用次数: 2

Abstract

This article presents a fast SIMD Hilbert space-filling curve generator, which supports a new cache-oblivious blocking-scheme technique applied to the out-of-place transposition of general matrices. Matrix operations found in high performance computing libraries are usually parameterized based on host microprocessor specifications to minimize data movement within the different levels of memory hierarchy. The performance of cache-oblivious algorithms does not rely on such parameterizations. This type of algorithm provides an elegant and portable solution to address the lack of standardization in modern-day processors. Our solution consists in an iterative blocking scheme that takes advantage of the locality-preserving properties of Hilbert space-filling curves to minimize data movement in any memory hierarchy. This scheme traverses the input matrix, in O(nm) time and space, improving the behavior of matrix algorithms that inherently present poor memory locality. The application of this technique to the problem of out-of-place matrix transposition achieved competitive results when compared to state-of-the-art approaches. The performance of our solution surpassed Intel MKL version after employing standard software prefetching techniques.
基于缓存遗忘Hilbert曲线的矩阵换位分块方案
本文提出了一种快速SIMD-Hilbert空间填充曲线生成器,该生成器支持一种新的缓存遗忘分块技术,该技术应用于一般矩阵的错位换位。高性能计算库中的矩阵运算通常基于主机微处理器规范进行参数化,以最大限度地减少不同级别内存层次结构中的数据移动。缓存遗忘算法的性能不依赖于这样的参数化。这种类型的算法提供了一种优雅而便携的解决方案,以解决现代处理器缺乏标准化的问题。我们的解决方案包含一个迭代阻塞方案,该方案利用Hilbert空间填充曲线的局部保持特性,最大限度地减少任何内存层次中的数据移动。该方案在O(nm)时间和空间中遍历输入矩阵,改善了固有地存在较差内存局部性的矩阵算法的行为。与最先进的方法相比,将该技术应用于错位矩阵换位问题获得了具有竞争力的结果。采用标准软件预取技术后,我们的解决方案的性能超过了“英特尔MKL”版本。
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
ACM Transactions on Mathematical Software
ACM Transactions on Mathematical Software 工程技术-计算机:软件工程
CiteScore
5.00
自引率
3.70%
发文量
50
审稿时长
>12 weeks
期刊介绍: As a scientific journal, ACM Transactions on Mathematical Software (TOMS) documents the theoretical underpinnings of numeric, symbolic, algebraic, and geometric computing applications. It focuses on analysis and construction of algorithms and programs, and the interaction of programs and architecture. Algorithms documented in TOMS are available as the Collected Algorithms of the ACM at calgo.acm.org.
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