同步驱动的mpsoc动态速度缩放

M. Loghi, M. Poncino, L. Benini
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引用次数: 5

摘要

平衡工作负载和处理元素的速度之间的比率可以提供最佳的速度分配。基于该原理,本文描述了多处理器片上系统(mpsoc)的动态速度设置策略,该策略依赖于对处理器空闲时间的估计,特别是由于同步工作。该策略提供了两个优点:首先,它不依赖于系统执行的应用程序的通信模式的任何假设。其次,它是纯粹的建筑;它自动检测系统工作负载的变化,并通过自定义硬件块相应地设置处理器速度。在并行MPEG视频解码应用程序上的结果显示,EDP节省了55%以上,在多个数据集上平均,相当于节省了50%以上的能源,而相应的性能损失低于8%
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synchronization-Driven Dynamic Speed Scaling for MPSoCs
Equalizing the ratios between workloads and speeds of processing elements provides the optimal speed allocation. Based on that principle, this work describes a dynamic speed setting policy for multiprocessor systems-on-chip (MPSoCs) that relies on the estimation of processor idle times specifically due to the synchronization work. The policy provides two advantages: first, it does not rely on any assumption about the communication pattern of the application executed by the system. Second, it is purely architectural; it automatically detects changes in the system workload and sets processors speeds accordingly by means of a custom hardware block. Results on a parallel MPEG video decoding application show an EDP saving above 55%, averaged over several datasets, corresponding to an energy saving above 50%, and a corresponding penalty in performance below 8%
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