粗粒度可重构体系结构的混合优先级配置缓存监督方法

Bo Liu, Peng Cao, Jinjiang Yang
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引用次数: 1

摘要

粗粒度可重构体系结构(CGRA)旨在提供在效率和灵活性方面都令人满意的解决方案。然而,为了满足多媒体应用日益增长的性能需求,CGRAs的规模必须足够大,以包含更多的计算资源,以获得更高的处理性能。本文提出了一种混合优先级配置缓存监督方法,以优化多媒体应用中大规模粗粒度可重构架构的重构过程。通过分析多媒体应用映射到大规模CGRAs时的重构特征,总结出三种优先级,并将其应用到分级配置缓存的监督策略中。以H.264标准为基准,实验结果表明,在减少配置缓存大小的情况下,该方法可以显著提高大规模CGRAs的重构效率。
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Hybrid-Priority Configuration Cache Supervision Method for Coarse Grained Reconfigurable Architecture
Coarse-grained reconfigurable architecture (CGRA) aims to provide satisfying solutions in terms of both efficiency and flexibility. However, to meet the ever increasing performance demand for multimedia applications, the scale of CGRAs should be larger enough to contain more computation resources for higher processing performance. In this paper, we present a hybrid-priority configuration cache supervision approach to optimize the reconfiguration process of large-scale coarse-grained reconfigurable architectures for multimedia applications. By analyzing the reconfiguration features during mapping multimedia applications onto large-scale CGRAs, three types of priority are summarized and adopted to the supervision strategy of hierarchical configuration cache. Taking the H.264 standard as benchmark, the experimental results show that the proposed approach can improve the reconfiguration efficiency of the large-scale CGRAs much, even with reduced configuration cache size.
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