An empirical characterization of stream programs and its implications for language and compiler design

W. Thies, Saman P. Amarasinghe
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引用次数: 175

Abstract

Stream programs represent an important class of high-performance computations. Defined by their regular processing of sequences of data, stream programs appear most commonly in the context of audio, video, and digital signal processing, though also in networking, encryption, and other areas. In order to develop effective compilation techniques for the streaming domain, it is important to understand the common characteristics of these programs. Prior characterizations of stream programs have examined legacy implementations in C, C++, or FORTRAN, making it difficult to extract the high-level properties of the algorithms. In this work, we characterize a large set of stream programs that was implemented directly in a stream programming language, allowing new insights into the high-level structure and behavior of the applications. We utilize the StreamIt benchmark suite, consisting of 65 programs and 33,600 lines of code. We characterize the bottlenecks to parallelism, the data reference patterns, the input/output rates, and other properties. The lessons learned have implications for the design of future architectures, languages and compilers for the streaming domain.
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流程序的经验表征及其对语言和编译器设计的影响
流程序代表了一类重要的高性能计算。流程序由它们对数据序列的常规处理来定义,它最常出现在音频、视频和数字信号处理的上下文中,尽管它也出现在网络、加密和其他领域。为了开发有效的流领域编译技术,了解这些程序的共同特征是很重要的。先前对流程序的描述已经检查了C、c++或FORTRAN中的遗留实现,因此很难提取算法的高级属性。在这项工作中,我们描述了一大批直接用流编程语言实现的流程序,从而对应用程序的高级结构和行为有了新的认识。我们使用StreamIt基准套件,由65个程序和33,600行代码组成。我们描述了并行性、数据引用模式、输入/输出速率和其他属性的瓶颈。从中吸取的经验教训对流领域的未来架构、语言和编译器的设计具有启示意义。
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