Parallel Implementation of the Nonlinear Semi-NMF Based Alternating Optimization Method for Deep Neural Networks

被引:0
|
作者
Akira Imakura
Yuto Inoue
Tetsuya Sakurai
Yasunori Futamura
机构
[1] University of Tsukuba,
[2] JST/CREST,undefined
来源
Neural Processing Letters | 2018年 / 47卷
关键词
Deep neural networks; Nonlinear semi-nonnegative matrix factorizations; Parallel implementation;
D O I
暂无
中图分类号
学科分类号
摘要
For computing weights of deep neural networks (DNNs), the backpropagation (BP) method has been widely used as a de-facto standard algorithm. Since the BP method is based on a stochastic gradient descent method using derivatives of objective functions, the BP method has some difficulties finding appropriate parameters such as learning rate. As another approach for computing weight matrices, we recently proposed an alternating optimization method using linear and nonlinear semi-nonnegative matrix factorizations (semi-NMFs). In this paper, we propose a parallel implementation of the nonlinear semi-NMF based method. The experimental results show that our nonlinear semi-NMF based method and its parallel implementation have competitive advantages to the conventional DNNs with the BP method.
引用
收藏
页码:815 / 827
页数:12
相关论文
共 50 条
  • [31] EC-DNN: A new method for parallel training of deep neural networks
    Sun, Shizhao
    Liu, Xiaoguang
    [J]. NEUROCOMPUTING, 2018, 287 : 118 - 127
  • [32] Ensemble-Compression: A New Method for Parallel Training of Deep Neural Networks
    Sun, Shizhao
    Chen, Wei
    Bian, Jiang
    Liu, Xiaoguang
    Liu, Tie-Yan
    [J]. MACHINE LEARNING AND KNOWLEDGE DISCOVERY IN DATABASES, ECML PKDD 2017, PT I, 2017, 10534 : 187 - 202
  • [33] THE DESIGN OF EXPERIMENTS, TRAINING AND IMPLEMENTATION OF NONLINEAR CONTROLLERS BASED ON NEURAL NETWORKS
    DAYAL, BS
    TAYLOR, PA
    MACGREGOR, JF
    [J]. CANADIAN JOURNAL OF CHEMICAL ENGINEERING, 1994, 72 (06): : 1066 - 1079
  • [34] Resource and Data Optimization for Hardware Implementation of Deep Neural Networks Targeting FPGA-based Edge Devices
    Liu, Xinheng
    Kim, Dae Hee
    Wu, Chang
    Chen, Deming
    [J]. 2018 ACM/IEEE INTERNATIONAL WORKSHOP ON SYSTEM LEVEL INTERCONNECT PREDICTION (SLIP), 2018,
  • [35] An FPGA-based Accelerator Implementation for Deep Convolutional Neural Networks
    Zhou, Yongmei
    Jiang, Jingfei
    [J]. PROCEEDINGS OF 2015 4TH INTERNATIONAL CONFERENCE ON COMPUTER SCIENCE AND NETWORK TECHNOLOGY (ICCSNT 2015), 2015, : 829 - 832
  • [36] Development, Implementation and Prospect of FPGA-Based Deep Neural Networks
    Jiao, Li-Cheng
    Sun, Qi-Gong
    Yang, Yu-Ting
    Feng, Yu-Xin
    Li, Xiu-Fang
    [J]. Jisuanji Xuebao/Chinese Journal of Computers, 2022, 45 (03): : 441 - 471
  • [37] Adaptive modification of turbofan engine nonlinear model based on LSTM neural networks and hybrid optimization method
    Ma, Yanhua
    DU, Xian
    Sun, Ximing
    [J]. CHINESE JOURNAL OF AERONAUTICS, 2022, 35 (09) : 314 - 332
  • [38] Multi-angle Insulator Recognition Method in Infrared Image Based on Parallel Deep Convolutional Neural Networks
    Zhao, Zhenbing
    Fan, Xiaoqing
    Qi, Yincheng
    Zhai, Yongjie
    [J]. COMPUTER VISION, PT III, 2017, 773 : 303 - 314
  • [39] Adaptive modification of turbofan engine nonlinear model based on LSTM neural networks and hybrid optimization method
    Yanhua MA
    Xian DU
    Ximing SUN
    [J]. Chinese Journal of Aeronautics , 2022, (09) : 314 - 332
  • [40] Adaptive modification of turbofan engine nonlinear model based on LSTM neural networks and hybrid optimization method
    Yanhua MA
    Xian DU
    Ximing SUN
    [J]. Chinese Journal of Aeronautics, 2022, 35 (09) : 314 - 332
12345