Your search keyword '"Han Yanan"' showing total 3 results

1. Photonic Integrated Neuro-Synaptic Core for Convolutional Spiking Neural Network

Author

Xiang, Shuiying, Shi, Yuechun, Zhang, Yahui, Guo, Xingxing, Zheng, Ling, Han, Yanan, Zhang, Yuna, Song, Ziwei, Zheng, Dianzhuang, Zhang, Tao, Wang, Hailing, Zhu, Xiaojun, Chen, Xiangfei, Qiu, Min, Shen, Yichen, Zheng, Wanhua, and Hao, Yue

Subjects

Physics - Optics

Abstract

Neuromorphic photonic computing has emerged as a competitive computing paradigm to overcome the bottlenecks of the von-Neumann architecture. Linear weighting and nonlinear spiking activation are two fundamental functions of a photonic spiking neural network (PSNN). However, they are separately implemented with different photonic materials and devices, hindering the large-scale integration of PSNN. Here, we propose, fabricate and experimentally demonstrate a photonic neuro-synaptic chip enabling the simultaneous implementation of linear weighting and nonlinear spiking activation based on a distributed feedback (DFB) laser with a saturable absorber (DFB-SA). A prototypical system is experimentally constructed to demonstrate the parallel weighted function and nonlinear spike activation. Furthermore, a four-channel DFB-SA array is fabricated for realizing matrix convolution of a spiking convolutional neural network, achieving a recognition accuracy of 87% for the MNIST dataset. The fabricated neuro-synaptic chip offers a fundamental building block to construct the large-scale integrated PSNN chip.

Published

2023

2. Spiking SiamFC++: Deep Spiking Neural Network for Object Tracking

Author

Xiang, Shuiying, Zhang, Tao, Jiang, Shuqing, Han, Yanan, Zhang, Yahui, Du, Chenyang, Guo, Xingxing, Yu, Licun, Shi, Yuechun, and Hao, Yue

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

Spiking neural network (SNN) is a biologically-plausible model and exhibits advantages of high computational capability and low power consumption. While the training of deep SNN is still an open problem, which limits the real-world applications of deep SNN. Here we propose a deep SNN architecture named Spiking SiamFC++ for object tracking with end-to-end direct training. Specifically, the AlexNet network is extended in the time domain to extract the feature, and the surrogate gradient function is adopted to realize direct supervised training of the deep SNN. To examine the performance of the Spiking SiamFC++, several tracking benchmarks including OTB2013, OTB2015, VOT2015, VOT2016, and UAV123 are considered. It is found that, the precision loss is small compared with the original SiamFC++. Compared with the existing SNN-based target tracker, e.g., the SiamSNN, the precision (succession) of the proposed Spiking SiamFC++ reaches 85.24% (64.37%), which is much higher than that of 52.78% (44.32%) achieved by the SiamSNN. To our best knowledge, the performance of the Spiking SiamFC++ outperforms the existing state-of-the-art approaches in SNN-based object tracking, which provides a novel path for SNN application in the field of target tracking. This work may further promote the development of SNN algorithms and neuromorphic chips.

Published

2022

3. Hardware-algorithm collaborative computing with photonic spiking neuron chip based on integrated Fabry-P\'erot laser with saturable absorber

Author

Xiang, Shuiying, Shi, Yuechun, Guo, Xingxing, Zhang, Yahui, Wang, Hongji, Zheng, Dianzhuang, Song, Ziwei, Han, Yanan, Gao, Shuang, Zhao, Shihao, Gu, Biling, Wang, Hailing, Zhu, Xiaojun, Hou, Lianping, Chen, Xiangfei, Zheng, Wanhua, Ma, Xiaohua, and Hao, Yue

Subjects

Computer Science - Emerging Technologies, Physics - Optics

Abstract

Photonic neuromorphic computing has emerged as a promising avenue toward building a low-latency and energy-efficient non-von-Neuman computing system. Photonic spiking neural network (PSNN) exploits brain-like spatiotemporal processing to realize high-performance neuromorphic computing. However, the nonlinear computation of PSNN remains a significant challenging. Here, we proposed and fabricated a photonic spiking neuron chip based on an integrated Fabry-P\'erot laser with a saturable absorber (FP-SA) for the first time. The nonlinear neuron-like dynamics including temporal integration, threshold and spike generation, refractory period, and cascadability were experimentally demonstrated, which offers an indispensable fundamental building block to construct the PSNN hardware. Furthermore, we proposed time-multiplexed spike encoding to realize functional PSNN far beyond the hardware integration scale limit. PSNNs with single/cascaded photonic spiking neurons were experimentally demonstrated to realize hardware-algorithm collaborative computing, showing capability in performing classification tasks with supervised learning algorithm, which paves the way for multi-layer PSNN for solving complex tasks., Comment: 10 pages, 8 figures

Published

2022