On compile-time evaluation of process partitioning transformations for Kahn process networks

Sjoerd Meijer, Hristo Nikolov, T. Stefanov
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引用次数: 9

Abstract

Kahn Process Networks is an appealing model of computation for programming and mapping applications onto multi-processor platforms. Autonomous processes communicate through unbounded FIFO channels in absence of a global scheduler. We derive Kahn process networks from sequential applications using the pn compiler, but the derived networks do not necessarily meet the performance requirements. Process partitioning transformations can achieve a more balanced network improving the performance results significantly. There are a number of process partitioning transformations that can be used, but no hints are given to the designer which transformation should be applied to minimize, for example, the execution time. Therefore, we investigate a compile-time approach for selecting the best transformation candidate and show results on a Xilinx Virtex 2 FPGA and the Cell BE processor.
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Kahn过程网络过程划分转换的编译时评估
Kahn进程网络是一种很有吸引力的计算模型,用于在多处理器平台上编程和映射应用程序。在没有全局调度程序的情况下,自治进程通过无界FIFO通道进行通信。我们使用pn编译器从顺序应用程序中导出Kahn进程网络,但导出的网络不一定满足性能要求。进程分区转换可以实现更加平衡的网络,从而显著提高性能结果。可以使用许多流程分区转换,但是没有提示设计人员应该应用哪种转换来最小化,例如,最小化执行时间。因此,我们研究了一种选择最佳转换候选的编译时方法,并在Xilinx Virtex 2 FPGA和Cell BE处理器上展示了结果。
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