多媒体自适应流水线mpsoc的系统级应用感知动态电源管理

Haris Javaid, M. Shafique, J. Henkel, S. Parameswaran
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引用次数: 34

摘要

多处理器片上系统(mpsoc)中的系统级动态电源管理(DPM)方案利用处理器的空闲状态,将空闲的处理器置于低功耗状态,从而降低能耗。在存在多个低功耗状态的情况下,挑战在于如何高精度地预测空闲时间的持续时间,以便为空闲处理器选择最有利的功耗状态。在这项工作中,我们提出了一种适用于多媒体应用的自适应流水线mpsoc动态电源管理方案。我们以未来工作负载预测的形式利用应用程序知识来预测空闲期的持续时间。然后使用预测的持续时间为空闲处理器选择适当的电源状态。我们提出了五种启发式方法作为DPM的一部分,并使用MPSoC实现支持HD720p的30 fps的H.264视频编码器来比较它们的有效性。结果表明,与最优解相比,基于应用程序预测的启发式算法(MAMAPBH)预测空闲处理器最有利的功率状态误差小于3%。在节能方面,MAMAPBH的节能效果始终在最优方案的1%以内。与一种简单的方法(所有空闲处理器只使用一种可能的电源状态)相比,MAMAPBH实现了高达40%的节能,而吞吐量仅下降了0.5%。这些结果表明利用系统级应用知识的重要性动态电源管理方案。
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System-level application-aware dynamic power management in adaptive pipelined MPSoCs for multimedia
System-level dynamic power management (DPM) schemes in Multiprocessor System on Chips (MPSoCs) exploit the idleness of processors to reduce the energy consumption by putting idle processors to low-power states. In the presence of multiple low-power states, the challenge is to predict the duration of the idle period with high accuracy so that the most beneficial power state can be selected for the idle processor. In this work, we propose a novel dynamic power management scheme for adaptive pipelined MPSoCs, suitable for multimedia applications. We leverage application knowledge in the form of future workload prediction to forecast the duration of idle periods. The predicted duration is then used to select an appropriate power state for the idle processor. We proposed five heuristics as part of the DPM and compared their effectiveness using an MPSoC implementation of the H.264 video encoder supporting HD720p at 30 fps. The results show that one of the application prediction based heuristic (MAMAPBH) predicted the most beneficial power states for idle processors with less than 3% error when compared to an optimal solution. In terms of energy savings, MAMAPBH was always within 1% of the energy savings of the optimal solution. When compared with a naive approach (where only one of the possible power states is used for all the idle processors), MAMAPBH achieved up to 40% more energy savings with only 0.5% degradation in throughput. These results signify the importance of leveraging application knowledge at system-level for dynamic power management schemes.
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