An Optimal Control Approach to Power Management for Multi-Voltage and Frequency Islands Multiprocessor Platforms under Highly Variable Workloads

P. Bogdan, R. Marculescu, Siddhartha Jain, Rafael Tornero Gavilá
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引用次数: 72

Abstract

Reducing energy consumption in multi-processor systems-on-chip (MPSoCs) where communication happens via the network-on-chip (NoC) approach calls for multiple voltage/frequency island (VFI)-based designs. In turn, such multi-VFI architectures need efficient, robust, and accurate run-time control mechanisms that can exploit the workload characteristics in order to save power. Despite being tractable, the linear control models for power management cannot capture some important workload characteristics (e.g., fractality, non-stationarity) observed in heterogeneous NoCs, if ignored, such characteristics lead to inefficient communication and resources allocation, as well as high power dissipation in MPSoCs. To mitigate such limitations, we propose a new paradigm shift from power optimization based on linear models to control approaches based on fractal-state equations. As such, our approach is the first to propose a controller for fractal workloads with precise constraints on state and control variables and specific time bounds. Our results show that significant power savings (about 70%) can be achieved at run-time while running a variety of benchmark applications.
高可变负载下多电压频岛多处理器平台电源管理的最优控制方法
在通过片上网络(NoC)进行通信的多处理器片上系统(mpsoc)中,为了降低能耗,需要采用基于多个电压/频率岛(VFI)的设计。反过来,这种多vfi架构需要高效、健壮和准确的运行时控制机制,这些机制可以利用工作负载特性来节省电力。尽管易于处理,但用于电源管理的线性控制模型无法捕捉到异构noc中观察到的一些重要工作负载特征(例如分形、非平稳性),如果忽略这些特征,则会导致mpsoc中的低效通信和资源分配,以及高功耗。为了减轻这些限制,我们提出了一种新的范式转变,从基于线性模型的功率优化到基于分形状态方程的控制方法。因此,我们的方法是第一个提出分形工作负载的控制器,具有对状态和控制变量以及特定时间界限的精确约束。我们的结果表明,在运行各种基准测试应用程序时,可以实现显著的节能(约70%)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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