Enabling Fine-Grained Dynamic Voltage and Frequency Scaling in SDSoC

2019 32nd IEEE International System-on-Chip Conference (SOCC) Pub Date : 2019-09-01 DOI:10.1109/SOCC46988.2019.1570558174

Weixiong Jiang, Heng Yu, Y. Ha

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引用次数: 2

Abstract

Dynamic Voltage and Frequency Scaling (DVFS) has been extensively applied as a system-level methodology for energy optimization or temperature control. But current DVFS systems are mostly implemented on CPUs, DVFS working on FPGAs is limited. Moreover, all current DVFS systems available for FPGAs have either low scaling resolution or long reconfiguration time, and none of them is easy to reuse. In this paper, we develop a fast and efficient ZYNQ-based DVFS platform with high resolution and short reconfiguration time. In addition, we add the DVFS support to SDSoC and make it easier and quicker to build an ZYNQ system with DVFS features. We also apply our DVFS platform to a real-time semi-global matching (SGM) accelerator as a case study, and develop a DVFS policy to optimize its power consumption. Compared to the state-of-the-art, our DVFS platform saves 45% FFs and almost all LUTs, the voltage scaling time is 7ms and the frequency scaling time is 3$\mu s$, and time for one design iteration to add DVFS support is reduced from several hours to a few minutes. Compared to its unoptimized version, the SGM accelerator with our DVFS platform saves up to 46% energy.

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实现SDSoC的细粒度动态电压和频率缩放

动态电压频率标度(DVFS)作为一种系统级方法已被广泛应用于能量优化或温度控制。但是目前的DVFS系统大多是在cpu上实现的，在fpga上工作的DVFS是有限的。此外，目前所有可用于fpga的DVFS系统要么缩放分辨率低，要么重新配置时间长，而且都不容易重用。在本文中，我们开发了一个快速高效的基于zynq的DVFS平台，具有高分辨率和短重构时间。此外，我们将DVFS支持添加到SDSoC，使其更容易和更快地构建具有DVFS功能的ZYNQ系统。我们还将我们的DVFS平台应用于实时半全局匹配(SGM)加速器作为案例研究，并制定了DVFS策略来优化其功耗。与最先进的DVFS平台相比，我们的DVFS平台节省了45%的ff和几乎所有的lut，电压缩放时间为7ms，频率缩放时间为3美元，并且一次设计迭代增加DVFS支持的时间从几个小时减少到几分钟。与未优化版本相比，采用DVFS平台的SGM加速器可节省高达46%的能源。

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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2019 32nd IEEE International System-on-Chip Conference (SOCC)

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