Energy-Efficient NoC-Based Systems for Real-Time Multimedia Applications using Approximate Computing

Anais do XXXIV Concurso de Teses e Dissertações da SBC (CTD-SBC 2021) Pub Date : 2021-07-18 DOI:10.5753/CTD.2021.15750

Wagner Penny, D. Palomino, M. Porto, B. Zatt

引用次数: 0

Abstract

This work presents an energy-efficient NoC-based system for real-time multimedia applications employing approximate computing. The proposed video processing system, called SApp-NoC, is efficient in both energy and quality (QoS), employing a scalable NoC architecture composed of processing elements designed to accelerate the HEVC Fractional Motion Estimation (FME). Two solutions are proposed: HSApp-NoC (Heuristc-based SApp-NoC), and MLSApp-NoC (Machine Learning-based SApp-NoC). When compared to a precise solution processing 4K videos at 120 fps, HSApp-NoC and MLSApp-NoC reduce about 48.19% and 31.81% the energy consumption, at small quality reduction of 2.74% and 1.09%, respectively. Furthermore, a set of schedulability analysis is also proposed in order to guarantee the meeting of timing constraints at typical workload scenarios.

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基于近似计算的高效节能的实时多媒体应用系统

本文提出了一种基于近似计算的高效节能的实时多媒体应用系统。所提出的视频处理系统称为SApp-NoC，在能量和质量(QoS)方面都很高效，采用由处理元素组成的可扩展NoC架构，旨在加速HEVC分数运动估计(FME)。提出了两种解决方案:happ - noc(基于启发式的SApp-NoC)和mlapp - noc(基于机器学习的SApp-NoC)。与以120 fps处理4K视频的精确解决方案相比，HSApp-NoC和mlapp - noc分别降低了48.19%和31.81%的能耗，而质量则分别降低了2.74%和1.09%。此外，还提出了一套可调度性分析，以保证在典型工作负载场景下满足时间约束。

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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Anais do XXXIV Concurso de Teses e Dissertações da SBC (CTD-SBC 2021)

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