P. Meloni, Giuseppe Tuveri, L. Raffo, Igor Loi, Francesco Conti
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引用次数: 2
Abstract
In modern MPSoC architectures, programming to effectively exploit all the available resources becomes very challenging. Polyhedral Process Networks (PPN) are a known model of computation that represents a suitable solution for systematic mapping of parallel applications onto multiprocessor architectures. In previous works it has been shown that a given PPN program specification can be further analyzed and optimized, in order to meet the desired performance requirements. In this paper we present an online process splitting transformation that does not need a re-design of the communication patterns in network structure of the application. The novelty of our approach is that, differently from other compile-time approaches, the proposed transformation technique can be applied at run-time and followed, if needed, by the backward transformation. Using a FPGA-based MPSoC shared memory platform, we present an evaluation of the achievable performance improvements. We also discuss the overhead caused by the introduction of the run-time transformation support.
在现代MPSoC架构中,有效利用所有可用资源的编程变得非常具有挑战性。多面体进程网络(Polyhedral Process Networks, PPN)是一种已知的计算模型,它代表了将并行应用程序系统地映射到多处理器架构上的合适解决方案。在以前的工作中已经表明,给定的PPN程序规范可以进一步分析和优化,以满足期望的性能要求。本文提出了一种不需要重新设计应用程序网络结构中的通信模式的在线进程拆分转换方法。我们的方法的新颖之处在于,与其他编译时方法不同,所建议的转换技术可以在运行时应用,如果需要的话,还可以进行向后转换。使用基于fpga的MPSoC共享存储器平台,我们对可实现的性能改进进行了评估。我们还讨论了引入运行时转换支持所带来的开销。
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