一种适用于电压模式数少的复杂soc的高效电压缩放算法

B. Gorjiara, N. Bagherzadeh, P. Chou
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引用次数: 18

摘要

对更大的高性能应用程序的需求不断增长,需要开发更复杂的系统,在单个芯片上有数百个处理核心。为了允许每个片上核心单独的动态电压缩放,必须使用许多片上电压调节器。然而,片上电感实现的局限性会降低效率、精度和由调节器产生的电压模式的数量。因此,未来的电压调度算法必须是高效的,即使存在很少的电压模式;而且速度快,以便处理复杂的应用程序。迄今为止提出的技术需要许多细粒度的电压模式来产生节能结果,并且随着模式数量的减少,它们的质量显著下降。本文提出了一种新的技术,称为自适应随机梯度电压和任务调度(ASG-VTS),它可以快速产生非常节能的结果,而不管可用电压模式的数量。将我们的算法与最有效的方法(RVS和EE-GLSA)进行比较的结果表明,在只有四种有效模式的情况下,ASG-VTS可以节省高达26%和33%的能量。另一方面,其他方法需要至少十种模式才能达到ASG-VTS仅用四种模式就能达到的节能水平。因此,我们的算法也可以用于探索和最小化系统中所需电压电平的数量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An efficient voltage scaling algorithm for complex SoCs with few number of voltage modes
Increasing demand for larger high-performance applications requires developing more complex systems with hundreds of processing cores on a single chip. To allow dynamic voltage scaling in each on-chip core individually, many on-chip voltage regulators must be used. However, the limitations in implementation of on-chip inductors can reduce the efficiency, accuracy and the number of voltage modes generated by regulators. Therefore the future voltage scheduling algorithms must be efficient, even in the presence of few voltage modes; and fast, in order to handle complex applications. Techniques proposed to date need many fine-grained voltage modes to produce energy efficient results and their quality degrades significantly as the number of modes decreases. This paper presents a new technique called Adaptive Stochastic Gradient Voltage and Task Scheduling (ASG-VTS) that quickly generates very energy efficient results irrespective of the number of available voltage modes. The results of comparing our algorithm to the most efficient approaches (RVS and EE-GLSA) show that in the presence of only four valid modes, the ASG-VTS saves up to 26% and 33% more energy. On the other hand, other approaches require at least ten modes to reach the same level of energy saving that ASG-VTS achieves with only four modes. Therefore our algorithm can also be used to explore and minimize the number of required voltage levels in the system.
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