面向硬件的神经网络近似推理训练

Xin He, Liu Ke, Wenyan Lu, Guihai Yan, Xuan Zhang
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引用次数: 30

摘要

神经网络固有的容错性使近似计算成为提高神经网络推理能量效率的一种很有前途的技术。传统的近似计算侧重于平衡现有预训练网络的效率和精度之间的权衡,这可能导致次优解。在本文中,我们提出了AxTrain,一个面向硬件的训练框架,以促进神经网络推理的近似计算。具体来说,AxTrain利用了两种正交方法之间的协同作用——一种是主动搜索具有高容错性的网络参数分布,另一种是通过在训练阶段将近似硬件的噪声分布数值结合起来,被动地学习弹性权重。使用近阈值计算和近似乘法策略的各种数据集的实验结果表明,AxTrain能够获得弹性神经网络参数并提高系统能效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AxTrain: Hardware-Oriented Neural Network Training for Approximate Inference
The intrinsic error tolerance of neural network (NN) makes approximate computing a promising technique to improve the energy efficiency of NN inference. Conventional approximate computing focuses on balancing the efficiency-accuracy trade-off for existing pre-trained networks, which can lead to suboptimal solutions. In this paper, we propose AxTrain, a hardware-oriented training framework to facilitate approximate computing for NN inference. Specifically, AxTrain leverages the synergy between two orthogonal methods---one actively searches for a network parameters distribution with high error tolerance, and the other passively learns resilient weights by numerically incorporating the noise distributions of the approximate hardware in the forward pass during the training phase. Experimental results from various datasets with near-threshold computing and approximation multiplication strategies demonstrate AxTrain's ability to obtain resilient neural network parameters and system energy efficiency improvement.
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