VPU Specific CNNs through Neural Architecture Search

2020 25th International Conference on Pattern Recognition (ICPR) Pub Date : 2021-01-10 DOI:10.1109/ICPR48806.2021.9412794

Ciarán Donegan, H. Yous, Saksham Sinha, Jonathan Byrne

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引用次数: 4

Abstract

The success of deep learning at computer vision tasks has led to an ever-increasing number of applications on edge devices. Often with the use of edge AI hardware accelerators like the Intel Movidius Vision Processing Unit (VPU). Performing computer vision tasks on edge devices is challenging. Many Convolutional Neural Networks (CNNs) are too complex to run on edge devices with limited computing power. This has created large interest in designing efficient CNNs and one promising way of doing this is through Neural Architecture Search (NAS). NAS aims to automate the design of neural networks. NAS can also optimize multiple different objectives together, like accuracy and efficiency, which is difficult for humans. In this paper, we use a differentiable NAS method to find efficient CNNs for VPU that achieves state-of-the-art classification accuracy on ImageNet. Our NAS designed model outperforms MobileNetV2, having almost 1% higher top-1 accuracy while being 13% faster on MyriadX VPU. To the best of our knowledge, this is the first time a VPU specific CNN has been designed using a NAS algorithm. Our results also reiterate the fact that efficient networks must be designed for each specific hardware. We show that efficient networks targeted at different devices do not perform as well on the VPU.

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基于神经结构搜索的VPU特定cnn

深度学习在计算机视觉任务中的成功导致边缘设备上的应用程序数量不断增加。通常使用边缘人工智能硬件加速器，如英特尔Movidius视觉处理单元(VPU)。在边缘设备上执行计算机视觉任务具有挑战性。许多卷积神经网络(cnn)过于复杂，无法在计算能力有限的边缘设备上运行。这引起了人们对设计高效cnn的极大兴趣，其中一种有前途的方法是通过神经结构搜索(NAS)。NAS旨在实现神经网络设计的自动化。NAS还可以同时优化多个不同的目标，比如准确性和效率，这是人类很难做到的。在本文中，我们使用可微NAS方法为VPU找到有效的cnn，在ImageNet上达到最先进的分类精度。我们的NAS设计模型优于MobileNetV2，在MyriadX VPU上的top-1准确率提高了近1%，而速度提高了13%。据我们所知，这是第一次使用NAS算法设计VPU专用CNN。我们的结果还重申了一个事实，即必须为每个特定的硬件设计高效的网络。我们表明，针对不同设备的高效网络在VPU上的表现并不好。

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

2020 25th International Conference on Pattern Recognition (ICPR)

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