基于微人工智能系统的节能DNN训练处理器

Donghyeon Han;Sanghoon Kang;Sangyeob Kim;Juhyoung Lee;Hoi-Jun Yoo
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引用次数: 2

摘要

由于移动DNN加速器的发展,许多边缘/移动设备现在能够利用深度神经网络(DNN)。移动DNN加速器通过实现节能推理,克服了计算资源和电池容量有限的问题。然而,其被动行为使DNN难以为个人用户或其服务环境提供主动定制。片上训练的重要性越来越高,以在DNN处理器与不断变化的环境或条件之间提供积极的交互。尽管DNN训练具有优势,但它比推理具有更多的约束,因此它被认为在移动/边缘设备上实现是不切实际的。最近,有许多实现移动DNN训练的试验,并将总结一些先前的工作。首先,它安排了训练功能引起的DNN加速器的新挑战,并讨论了与这些挑战相关的新硬件特性。其次,解释了算法-硬件协同优化方法,并解释了它为什么成为移动DNN训练研究的主流。第三,比较了传统推理加速器和最近的训练处理器之间的主要差异。最后,通过提出DNN训练处理器在微人工智能系统中的未来发展方向,得出结论。
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Energy-Efficient DNN Training Processors on Micro-AI Systems
Many edge/mobile devices are now able to utilize deep neural networks (DNNs) thanks to the development of mobile DNN accelerators. Mobile DNN accelerators overcame the problems of limited computing resources and battery capacity by realizing energy-efficient inference. However, its passive behavior makes it difficult for DNN to provide active customization for individual users or its service environment. The importance of on-chip training is rising more and more to provide active interaction between DNN processors and ever-changing surroundings or conditions. Despite its advantages, the DNN training has more constraints than the inference such that it was considered impractical to be realized on mobile/edge devices. Recently, there are many trials to realize mobile DNN training, and a number of prior works will be summarized. First, it arranges the new challenges of the DNN accelerator induced by training functionality and discusses new hardware features related to the challenges. Second, it explains algorithm-hardware co-optimization methods and explains why it becomes mainstream in mobile DNN training research. Third, it compares the main differences between the conventional inference accelerators and recent training processors. Finally, the conclusion is made by proposing the future directions of the DNN training processor in micro-AI systems.
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