PXNOR: Perturbative Binary Neural Network

2019 18th RoEduNet Conference: Networking in Education and Research (RoEduNet) Pub Date : 2019-10-01 DOI:10.1109/ROEDUNET.2019.8909493

Vlad Pelin, I. Radoi

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Abstract

Research into deep neural networks has brought about architectures and models that solve problems we once thought could not be approached by machine learning. Year after year, performance improves, to the point that it is becoming difficult to differentiate between the strengths of deep neural network models given our current data sets. However, due to their significant requirements in terms of hardware resources, all but few architectures are dependent on cloud environments. Yet, there are many use cases for neural networks in a variety of areas, many of which require consumer-grade hardware or highly resource constrained embedded devices. This paper offers a comparison of selected state-of-the-art neural network miniaturization methods, and proposes a new approach, PXNOR, that achieves a noteworthy accuracy, remarkable inference speed and significant memory savings. PXNOR seeks to fully replace traditional convolutional filters with approximate operations, while replacing all multiplications and additions with simpler, much faster versions such as XNOR and bitcounting, which are implemented at hardware level on all existing platforms.

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微扰二值神经网络

对深度神经网络的研究带来了架构和模型，解决了我们曾经认为机器学习无法解决的问题。年复一年，性能不断提高，以至于在我们当前的数据集下，很难区分深度神经网络模型的优势。然而，由于它们在硬件资源方面的巨大需求，几乎所有架构都依赖于云环境。然而，神经网络在各个领域都有许多用例，其中许多用例需要消费级硬件或资源高度受限的嵌入式设备。本文比较了几种最先进的神经网络小型化方法，并提出了一种新的神经网络小型化方法PXNOR，该方法具有显著的精度、显著的推理速度和显著的内存节省。PXNOR试图用近似运算完全取代传统的卷积滤波器，同时用更简单、更快的版本取代所有乘法和加法，如XNOR和位计数，这些都是在所有现有平台的硬件层面实现的。

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 18th RoEduNet Conference: Networking in Education and Research (RoEduNet)

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