对基于sycl的便携式快速傅里叶变换库进行基准测试

International Workshop on OpenCL Pub Date : 2022-03-17 DOI:10.1145/3529538.3529996

V. Pascuzzi, M. Goli

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引用次数: 1

摘要

在本文中，我们介绍了一个基于sycl的FFT库的早期版本，能够在所有主要供应商的硬件上运行，包括AMD, ARM, Intel和NVIDIA的cpu和gpu。我们的库目前的限制是它支持长度为211的单维fft和基数为2的输入序列。虽然是初步的，但这项工作的目的是为计算fft的丰富特征集的进一步发展奠定基础。与现有的可移植FFT库相比，该库的优势在于它是单源的，因此消除了由于大量使用预处理器宏和针对不同体系结构自动生成内核而产生的复杂性。我们使用了两个支持sycl的编译器，Codeplay ComputeCpp和Intel的开源LLVM项目，来评估基于sycl的FFT在各种异构架构上的性能可移植性。我们提供了将我们的可移植库与高度优化的特定于供应商的FFT库进行比较的研究，并讨论了阻碍性能的潜在来源。

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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Benchmarking a Proof-of-Concept Performance Portable SYCL-based Fast Fourier Transformation Library

In this paper, we present an early version of a SYCL-based FFT library, capable of running on all major vendor hardware, including CPUs and GPUs from AMD, ARM, Intel and NVIDIA. The current limitations of our library is it supports single-dimension FFTs up to 211 in length and base-2 input sequences. Although preliminary, the aim of this work is to seed further developments for a rich set of features for calculating FFTs. The library has the advantage over existing portable FFT libraries in that it is single-source, and therefore removes the complexities that arise due to abundant use of pre-processor macros and auto-generated kernels to target different architectures. We exercise two SYCL-enabled compilers, Codeplay ComputeCpp and Intel’s open-source LLVM project, to evaluate performance portability of our SYCL-based FFT on various heterogeneous architectures.We provide studies comparing our portable library with highly optimized vendor-specific FFT libraries, and discuss potential sources hindering performance.

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International Workshop on OpenCL

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