SMYLE OpenCL:用于嵌入式多核soc的编程框架

H. Tomiyama, Takuji Hieda, N. Nishiyama, Noriko Etani, Ittetsu Taniguchi
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引用次数: 8

摘要

嵌入式SoC架构已经从单核转向多核/多核范式,因为它具有更好的功率/性能效率。为了利用多核架构的潜在功率/性能效率,并行计算框架是必要的。OpenCL是gpu和多核服务器通用计算领域中最流行的并行计算框架之一。然而,现有的OpenCL实现由于运行时开销大,不适合嵌入式实时系统。在本文中,我们描述了一个用于嵌入式多核/多核soc的轻量级OpenCL框架。我们的OpenCL框架通过静态创建线程并将它们映射到内核来最小化运行时开销。在具有五核架构的FPGA原型板上进行的初步实验表明,与现有的OpenCL框架相比,该框架显著降低了运行时开销。
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SMYLE OpenCL: A programming framework for embedded many-core SoCs
Embedded SoC architecture has shifted from single-core to multi/many-core paradigm because of better power/performance efficiency. In order to exploit the potential power/performance efficiency of the many-core architecture, a parallel computing framework is necessary. OpenCL is one of the most popular parallel computing frameworks in the field of general-purpose computing on GPUs and multicore servers. However, the existing OpenCL implementations are not suitable to embedded real-time systems because of the large runtime overhead. In this paper, we describe a lightweight OpenCL framework for embedded multi/many-core SoCs. Our OpenCL framework minimizes the runtime overhead by statically creating threads and mapping them onto cores. Preliminary experiments on an FPGA prototype board with a five-core architecture shows a significant reduction in runtime overhead compared with an existing OpenCL framework.
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