可重构异构多处理器SoC的设计与实现

M. Bocchi, Mario de Dominicis, C. Mucci, A. Deledda, F. Campi, Andrea Lodi, M. Toma, R. Guerrieri
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引用次数: 3

摘要

介绍了一种基于可重构处理器和标准RISC处理器的异构共享存储多处理器体系结构。该工作旨在通过将可重构硬件集成到异构多核架构中,进一步提高可重构设备的计算密度。尽管RISC处理器的内部计算密度低于可重构处理器,但本研究表明,在信号处理应用中,将可重构核心与RISC核心耦合可使计算密度增加1.7倍。此外,这种方法还可以在相同的应用程序上节省高达37%的能源。多核SoC架构采用0.13mum技术实现,时钟频率为166MHz,平均功耗为340mW
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and implementation of a reconfigurable heterogeneous multiprocessor SoC
This paper introduces a novel heterogeneous shared memory multiprocessor architecture based on a reconfigurable processor and a standard RISC processor. The work aims at increasing further the computational density of a reconfigurable device by the integration of the reconfigurable hardware into a heterogeneous multi-core architecture. Though a RISC processor has a lower inner computational density than a reconfigurable processor, this work demonstrates that coupling a reconfigurable core to a RISC core leads to a computational density increase by a factor of up to 1.7times on signal processing applications. Moreover, this approach also achieves up to 37% energy savings on the same applications. The multi-core SoC architecture was implemented in 0.13mum technology, achieving a 166MHz clock frequency with an average 340mW power consumption
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