BitPruner: Network Pruning for Bit-serial Accelerators

2020 57th ACM/IEEE Design Automation Conference (DAC) Pub Date : 2020-07-01 DOI:10.1109/DAC18072.2020.9218534

Xiandong Zhao, Ying Wang, Cheng Liu, Cong Shi, Kaijie Tu, Lei Zhang

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引用次数: 13

Abstract

Bit-serial architectures (BSAs) are becoming increasingly popular in low power neural network processor (NNP) design. However, the performance and efficiency of state-of-the-art BSA NNPs are heavily depending on the distribution of ineffectual weight-bits of the running neural network. To boost the efficiency of third-party BSA accelerators, this work presents Bit-Pruner, a software approach to learn BSA-favored neural networks without resorting to hardware modifications. The techniques proposed in this work not only progressively prune but also structure the non-zero bits in weights, so that the number of zero-bits in the model can be increased and also load-balanced to suit the architecture of the target BSA accelerators. According to our experiments on a set of representative neural networks, Bit-Pruner increases the bit-sparsity up to 94.4% with negligible accuracy degradation. When the bit-pruned models are deployed onto typical BSA accelerators, the average performance is 2.1X and 1.5X higher than the baselines running non-pruned and weight-pruned networks, respectively.

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BitPruner:位串行加速器的网络修剪

位串行架构(BSAs)在低功耗神经网络处理器(NNP)设计中越来越受欢迎。然而，最先进的BSA nnp的性能和效率在很大程度上取决于运行神经网络的无效权重位的分布。为了提高第三方BSA加速器的效率，本研究提出了Bit-Pruner，这是一种无需修改硬件即可学习BSA青睐的神经网络的软件方法。本文提出的技术不仅可以对非零比特的权重进行逐步修剪，还可以对非零比特的权重进行结构化，从而可以增加模型中零比特的数量，并且可以负载均衡以适应目标BSA加速器的结构。根据我们在一组具有代表性的神经网络上的实验，Bit-Pruner将比特稀疏度提高到94.4%，而精度下降可以忽略不计。当将位修剪模型部署到典型的BSA加速器上时，平均性能分别比运行未修剪和权重修剪网络的基线高2.1倍和1.5倍。

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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2020 57th ACM/IEEE Design Automation Conference (DAC)

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