Enabling Efficient Deep Learning on MCU With Transient Redundancy Elimination

IF 3.6 2区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Jiesong Liu;Feng Zhang;Jiawei Guan;Hsin-Hsuan Sung;Xiaoguang Guo;Saiqin Long;Xiaoyong Du;Xipeng Shen
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Abstract

Deploying deep neural networks (DNNs) with satisfactory performance in resource-constrained environments is challenging. This is especially true of microcontrollers due to their tight space and computational capabilities. However, there is a growing demand for DNNs on microcontrollers, as executing large DNNs on microcontrollers is critical to reducing energy consumption, increasing performance efficiency, and eliminating privacy concerns. This paper presents a novel and systematic data redundancy elimination method to implement efficient DNNs on microcontrollers through innovations in computation and space optimization. By making the optimization itself a trainable component in the target neural networks, this method maximizes performance benefits while keeping the DNN accuracy stable. Experiments are performed on two microcontroller boards with three popular DNNs, namely CifarNet, ZfNet and SqueezeNet. Experiments show that this solution eliminates more than 96% of computations in DNNs and makes them fit well on microcontrollers, yielding 3.4-5 $\times$ speedup with little loss of accuracy.
通过消除瞬态冗余在 MCU 上实现高效深度学习
在资源有限的环境中部署性能令人满意的深度神经网络(DNN)是一项挑战。由于微控制器的空间和计算能力有限,这种情况尤为突出。然而,由于在微控制器上执行大型 DNN 对于降低能耗、提高性能效率和消除隐私问题至关重要,因此对微控制器上 DNN 的需求日益增长。本文提出了一种新颖、系统的数据冗余消除方法,通过计算和空间优化方面的创新,在微控制器上实现高效的 DNN。通过将优化本身作为目标神经网络中的可训练组件,该方法在保持 DNN 精度稳定的同时,最大限度地提高了性能。在两块微控制器板上使用三种流行的 DNN(即 CifarNet、ZfNet 和 SqueezeNet)进行了实验。实验结果表明,该解决方案消除了 DNN 中 96% 以上的计算,使它们能够很好地适应微控制器,速度提高了 3.4-5 美元/次,而准确性几乎没有损失。
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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来源期刊
IEEE Transactions on Computers
IEEE Transactions on Computers 工程技术-工程:电子与电气
CiteScore
6.60
自引率
5.40%
发文量
199
审稿时长
6.0 months
期刊介绍: The IEEE Transactions on Computers is a monthly publication with a wide distribution to researchers, developers, technical managers, and educators in the computer field. It publishes papers on research in areas of current interest to the readers. These areas include, but are not limited to, the following: a) computer organizations and architectures; b) operating systems, software systems, and communication protocols; c) real-time systems and embedded systems; d) digital devices, computer components, and interconnection networks; e) specification, design, prototyping, and testing methods and tools; f) performance, fault tolerance, reliability, security, and testability; g) case studies and experimental and theoretical evaluations; and h) new and important applications and trends.
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