Context-Aware Dataflow Adaptation Technique for Low-Power Multi-Core Embedded Systems

Hyeonseok Jung, Hoeseok Yang
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引用次数: 1

Abstract

Today’s embedded systems operate under increasingly dynamic conditions. First, computational workloads can be either fluctuating or adjustable. Moreover, as many devices are battery-powered, it is common to have runtime power management technique, which results in dynamic power budget. This paper presents a design methodology for multi-core systems, based on dataflow specification, that can deal with various contexts. We optimize the original dataflow considering various working conditions, then, autonomously adapt it to a pre-defined optimal form in response to context changes. We show the effectiveness of the proposed technique with a real-life case study and synthetic benchmarks.
低功耗多核嵌入式系统的上下文感知数据流自适应技术
当今的嵌入式系统在越来越动态的条件下运行。首先,计算工作负载可以是波动的,也可以是可调整的。此外,由于许多设备都是电池供电的,因此通常会采用运行时电源管理技术,从而导致动态电源预算。本文提出了一种基于数据流规范的多核系统设计方法,可以处理不同的上下文环境。我们考虑各种工作条件对原始数据流进行优化,然后根据上下文变化自主地将其调整为预定义的最佳形式。我们通过实际案例研究和综合基准来展示所提出技术的有效性。
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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