PATUS: A Code Generation and Autotuning Framework for Parallel Iterative Stencil Computations on Modern Microarchitectures

2011 IEEE International Parallel & Distributed Processing Symposium Pub Date : 2011-05-16 DOI:10.1109/IPDPS.2011.70

M. Christen, O. Schenk, H. Burkhart

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引用次数: 333

Abstract

Stencil calculations comprise an important class of kernels in many scientific computing applications ranging from simple PDE solvers to constituent kernels in multigrid methods as well as image processing applications. In such types of solvers, stencil kernels are often the dominant part of the computation, and an efficient parallel implementation of the kernel is therefore crucial in order to reduce the time to solution. However, in the current complex hardware micro architectures, meticulous architecture-specific tuning is required to elicit the machine's full compute power. We present a code generation and auto-tuning framework \textsc{Patus} for stencil computations targeted at multi- and many core processors, such as multicore CPUs and graphics processing units, which makes it possible to generate compute kernels from a specification of the stencil operation and a parallelization and optimization strategy, and leverages the auto tuning methodology to optimize strategy-dependent parameters for the given hardware architecture.

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现代微架构下并行迭代模板计算的代码生成和自动调优框架

在许多科学计算应用中，从简单的PDE求解器到多网格方法中的组成核以及图像处理应用，模板计算包含了一类重要的核。在这种类型的求解器中，模板内核通常是计算的主要部分，因此为了减少求解时间，内核的有效并行实现至关重要。然而，在当前复杂的硬件微体系结构中，需要细致的特定于体系结构的调优才能激发机器的全部计算能力。我们提出了针对多核和多核处理器(如多核cpu和图形处理单元)的模板计算的代码生成和自动调优框架\textsc{Patus}，这使得从模板操作规范和并行化和优化策略生成计算内核成为可能，并利用自动调优方法来优化给定硬件架构的策略相关参数。

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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2011 IEEE International Parallel & Distributed Processing Symposium

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