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530 results on '"Lv, Xiaojing"'

1. Kilometer-Level Coupled Modeling Using 40 Million Cores: An Eight-Year Journey of Model Development

Author

Duan, Xiaohui, Li, Yuxuan, Liu, Zhao, Yang, Bin, Zheng, Juepeng, Fu, Haohuan, Zhang, Shaoqing, Xu, Shiming, Gao, Yang, Xue, Wei, Wei, Di, Lv, Xiaojing, Yan, Lifeng, Huang, Haopeng, Lu, Haitian, Wan, Lingfeng, Lin, Haoran, Chang, Qixin, Li, Chenlin, He, Quanjie, Song, Zeyu, Wang, Xuantong, Yu, Yangyang, Fan, Xilong, Qu, Zhaopeng, Xu, Yankun, Guo, Xiuwen, Fei, Yunlong, Wang, Zhaoying, Li, Mingkui, Jiang, Yingjing, Lu, Lv, Su, Liang, Fu, Jiayu, Yu, Peinan, Liu, Weiguo, Wu, Lixin, Wang, Lanning, Liu, Xin, Chen, Dexun, and Yang, Guangwen

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

With current and future leading systems adopting heterogeneous architectures, adapting existing models for heterogeneous supercomputers is of urgent need for improving model resolution and reducing modeling uncertainty. This paper presents our three-week effort on porting a complex earth system model, CESM 2.2, to a 40-million-core Sunway supercomputer. Taking a non-intrusive approach that tries to minimizes manual code modifications, our project tries to achieve both improvement of performance and consistency of the model code. By using a hierarchical grid system and an OpenMP-based offloading toolkit, our porting and parallelization effort covers over 80% of the code, and achieves a simulation speed of 340 SDPD (simulated days per day) for 5-km atmosphere, 265 SDPD for 3-km ocean, and 222 SDPD for a coupled model, thus making multi-year or even multi-decadal experiments at such high resolution possible., Comment: 18 pages, 13 figures

Published
2024

2. Towards Exascale Computation for Turbomachinery Flows

Author

Fu, Yuhang, Shen, Weiqi, Cui, Jiahuan, Zheng, Yao, Yang, Guangwen, Liu, Zhao, Zhang, Jifa, Ji, Tingwei, Xie, Fangfang, Lv, Xiaojing, Liu, Hanyue, Liu, Xu, Liu, Xiyang, Song, Xiaoyu, Tao, Guocheng, Yan, Yan, Tucker, Paul, Miller, Steven A. E., Luo, Shirui, Koric, Seid, and Zheng, Weimin

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

A state-of-the-art large eddy simulation code has been developed to solve compressible flows in turbomachinery. The code has been engineered with a high degree of scalability, enabling it to effectively leverage the many-core architecture of the new Sunway system. A consistent performance of 115.8 DP-PFLOPs has been achieved on a high-pressure turbine cascade consisting of over 1.69 billion mesh elements and 865 billion Degree of Freedoms (DOFs). By leveraging a high-order unstructured solver and its portability to large heterogeneous parallel systems, we have progressed towards solving the grand challenge problem outlined by NASA, which involves a time-dependent simulation of a complete engine, incorporating all the aerodynamic and heat transfer components., Comment: SC23, November, 2023, Denver, CO., USA

Published
2023

4. Artificial optoelectronic synapse based on CdSe nanobelt photosensitized MoS2 transistor with long retention time for neuromorphic application

Author

Song Xiaohui, Lv Xiaojing, He Mengjie, Mao Fei, Bai Jie, Qin Xuan, Hu Yanjie, Ma Zinan, Liu Zhen, Li Xueping, Shen Chenhai, Jiang Yurong, Zhao Xu, and Xia Congxin

Subjects
cadmium selenide, molybdenum disulfide, heterojunction, artificial synapse, neuromorphic application, Physics, QC1-999
Abstract

Optoelectronic synaptic devices have been regarded as the key component in constructing neuromorphic computing systems. However, the optoelectronic synapses based on conventional 2D transistor are still suffering low photosensitivity and volatile retention behavior, which can affect the recognition accuracy and long-term memory. Here, a novel optoelectronic synaptic device based on surface-state-rich CdSe nanobelt photosensitized 2D MoS2 transistor is demonstrated. Benefiting from the excellent light absorption of CdSe and effective charge trapping at the hetero-interface, the device exhibits not only high photosensitivity but also long retention time (>1,500 s). In addition, typical synaptic functions including the excitatory postsynaptic current, paired-pulse facilitation, the transformation from short-term to long-term plasticity, the transformation from short-term to long-term plasticity, spike-amplitude-dependent plasticity, and learning-forgetting-relearning process are successfully simulated and modulated by light stimulation. Most importantly, an artificial neural network is simulated based on the optical potentiation and electrical habituation characteristics of the synaptic devices, with recognition accuracy rates of 89.2, 93.8, and 91.9 % for file type datasets, small digits, and large digits are achieved. This study demonstrates a simple and efficient way to fabricate highly photosensitive optoelectronic synapse for artificial neural networks by combining the merits of specific materials and device architecture.

Published
2024
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5. Design and Implementation of Aviation Dangerous Goods Science Popularization Platform

Author

Ye, Baoyu, Xiao, Lianying, Lv, Xiaojing, Appolloni, Andrea, Series Editor, Caracciolo, Francesco, Series Editor, Ding, Zhuoqi, Series Editor, Gogas, Periklis, Series Editor, Huang, Gordon, Series Editor, Nartea, Gilbert, Series Editor, Ngo, Thanh, Series Editor, Striełkowski, Wadim, Series Editor, Zailani, Suhaiza Hanim Binti Dato Mohamad, editor, Yagapparaj, Kosga, editor, and Zakuan, Norhayati, editor

Published
2024
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6. AI based Robot Safe Learning and Control

Author

Zhou, Xuefeng, Xu, Zhihao, Li, Shuai, Wu, Hongmin, Cheng, Taobo, and Lv, Xiaojing

Subjects
Robotics and Automation, Control and Systems Theory, Artificial Intelligence, Robotic Engineering, Safe Control, Deep Reinforcement Learning, Recurrent Neural Network, Force Control, Obstacle Ovoidance, Adaptive Control, Trajectory Tracking, Open Access, Robotics, Automatic control engineering, Artificial intelligence, bic Book Industry Communication::T Technology, engineering, agriculture::TJ Electronics & communications engineering::TJF Electronics engineering::TJFM Automatic control engineering::TJFM1 Robotics, bic Book Industry Communication::T Technology, engineering, agriculture::TJ Electronics & communications engineering::TJF Electronics engineering::TJFM Automatic control engineering, bic Book Industry Communication::U Computing & information technology::UY Computer science::UYQ Artificial intelligence
Abstract

This open access book mainly focuses on the safe control of robot manipulators. The control schemes are mainly developed based on dynamic neural network, which is an important theoretical branch of deep reinforcement learning. In order to enhance the safety performance of robot systems, the control strategies include adaptive tracking control for robots with model uncertainties, compliance control in uncertain environments, obstacle avoidance in dynamic workspace. The idea for this book on solving safe control of robot arms was conceived during the industrial applications and the research discussion in the laboratory. Most of the materials in this book are derived from the authors’ papers published in journals, such as IEEE Transactions on Industrial Electronics, neurocomputing, etc. This book can be used as a reference book for researcher and designer of the robotic systems and AI based controllers, and can also be used as a reference book for senior undergraduate and graduate students in colleges and universities.

Published
2020
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26. PVA-assisted metal transfer for vertical WSe2 photodiode with asymmetric van der Waals contacts

Author

Song Xiaohui, Liu Zhen, Ma Zinan, Hu Yanjie, Lv Xiaojing, Li Xueping, Yan Yong, Jiang Yurong, and Xia Congxin

Subjects
wse2, graphene, metal transfer, van der waals contact, photodiode, Physics, QC1-999
Abstract

The vertical electronic and optoelectronic devices based on 2D materials have shown great advantages over lateral devices, such as higher current density, faster switch speed, and superior short-channel control. However, it is difficult to fabricate vertical device with conventional metal deposition methods due to the aggressive process usually results in damage to the contact region. Here, we develop a simple and effective metal transfer technique and fabricate p-type and n-type WSe2 transistors by using metals with different work functions and subsequently create a vertical WSe2 transistors with a 18-nm-thick channel, which retain good gate coupling effect. Furthermore, a vertical WSe2 photodiode is constructed with graphene and Pt as asymmetric van der Waals (vdW) contacts. The work-function difference between graphene and Pt generates a built-in electric filed, leading to a high current rectification over 105. Under 405 nm laser illumination, the device exhibits excellent self-powered photodetection properties, including a high responsivity of 0.28 A W−1, fast response speed of 24 μs, and large light on/off ratio exceeding 105 at zero bias, which surpass most of the vdW photodiodes. This work demonstrates that the metal transfer technique is a promising strategy for the construction of high-performance vertical optoelectronic devices.

Published
2023
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50. Group 2 Innate Lymphoid Cells in Allergic Rhinitis.

Author

Wang, Shuang, Liu, Xuexia, Lin, Xinhua, Lv, Xiaojing, and Zhang, Hua

Subjects
T helper cells, REGULATORY T cells, TH2 cells, INNATE lymphoid cells, RHINORRHEA
Abstract

Allergic rhinitis (AR), which presents symptoms like sneezing and a runny nose, is categorized as an upper respiratory condition of type 2. Recent progress in comprehending AR has revealed the significant role played by type 2 cytokines, specifically interleukin (IL)-13, IL-4, and IL-5. These cytokines are released by helper T cells 2 (Th2) and innate lymphoid cells (ILC2s). ILC2s have the ability to interact with various immune cells and are essential in promoting both type 2 immune response and tissue repair, contributing to normal homeostatic functions within the body. This article presents a summary of the latest advancements in comprehending the activity of ILC2s, with particular emphasis on their potential role involvement in AR. It explores how they collaborate with Th2 cells to exacerbate nasal inflammation and interact with regulatory T cells (Tregs) to counteract the suppressive role mediated by Tregs during allergic inflammation. The significance of ILC2s in allergen-specific therapy is highlighted. A comprehensive understanding of ILC2s biology establishes a robust foundation for unraveling the pathogenesis of AR and devising innovative therapeutic approaches for its management. [ABSTRACT FROM AUTHOR]

Published
2024
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