StencilFlow: Mapping Large Stencil Programs to Distributed Spatial Computing Systems

2021 IEEE/ACM International Symposium on Code Generation and Optimization (CGO) Pub Date : 2020-10-28 DOI:10.1109/CGO51591.2021.9370315

J. D. F. Licht, Andreas Kuster, T. D. Matteis, Tal Ben-Nun, Dominic Hofer, T. Hoefler

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引用次数: 21

Abstract

Spatial computing devices have been shown to significantly accelerate stencil computations, but have so far relied on unrolling the iterative dimension of a single stencil operation to increase temporal locality. This work considers the general case of mapping directed acyclic graphs of heterogeneous stencil computations to spatial computing systems, assuming large input programs without an iterative component. StencilFlow maximizes temporal locality and ensures deadlock freedom in this setting, providing end-to-end analysis and mapping from a high-level program description to distributed hardware. We evaluate our generated architectures on a Stratix 10 FPGA testbed, yielding 1.31 TOp/s and 4.18 TOp/s on single-device and multi-device, respectively, demonstrating the highest performance recorded for stencil programs on FPGAs to date. We then leverage the framework to study a complex stencil program from a production weather simulation application. Our work enables productively targeting distributed spatial computing systems with large stencil programs, and offers insight into architecture characteristics required for their efficient execution in practice.

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StencilFlow:将大型模板程序映射到分布式空间计算系统

空间计算设备已被证明可以显著加速模板计算，但迄今为止，它们依赖于展开单个模板操作的迭代维度来增加时间局部性。这项工作考虑了将异构模板计算的有向无环图映射到空间计算系统的一般情况，假设没有迭代组件的大输入程序。StencilFlow最大限度地提高了时间局部性，并在此设置中确保了死锁自由，提供了从高级程序描述到分布式硬件的端到端分析和映射。我们在Stratix 10 FPGA测试平台上评估了我们生成的架构，在单器件和多器件上分别产生1.31和4.18 TOp/s，展示了迄今为止FPGA上模板程序的最高性能记录。然后，我们利用该框架来研究来自生产天气模拟应用程序的复杂模板程序。我们的工作使具有大型模板程序的分布式空间计算系统具有生产力，并提供了对其在实践中有效执行所需的架构特征的见解。

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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2021 IEEE/ACM International Symposium on Code Generation and Optimization (CGO)

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