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新智能制造地球岛:大能耗物联网+云+大数据+IDC节能1“一带一路互联互通”促高铁-光缆网-超级计算机产业升级 被引量:2
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作者 沈经 《仪器仪表标准化与计量》 2016年第5期3-9,共7页
中国制造业有3项世界冠军:高铁、光通信、超级计算机。2012-2016中国倡议"一带一路,互联互通"规划与建设,将推进中国"智能制造"的第4项世界冠军"物联网+云+大数据+"的IDC节能产业。
关键词 Lorenz曲线 Gini指数 高铁 光缆通信网 超级计算机 “一带一路互联互通” 智能制造 “物联网+云计数+大数据+” 互联网数据中心IDC节能产业 “BAR:欧亚地球岛之bar”
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Virtual characterization via knowledgeenhanced representation learning:from organic conjugated molecules to devices
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作者 Guojiang Zhao Qi Ou +15 位作者 Zifeng Zhao Shangqian Chen Haitao Lin Xiaohong Ji Zhen Wang Hongshuai Wang Hengxing Cai Lirong Wu Shuqi Lu FengTianCi Yang Yaping Wen Yingfeng Zhang Haibo Ma Zhifeng Gao Zheng Cheng Weinan E 《npj Computational Materials》 2025年第1期3337-3346,共10页
The rational design of organic functional devices relies on understanding structure-propertyperformance relationships through multi-scale characterization.However,traditional characterizations are costly and require m... The rational design of organic functional devices relies on understanding structure-propertyperformance relationships through multi-scale characterization.However,traditional characterizations are costly and require multidisciplinary expertise.Here we present OCNet,a domain-knowledge-enhanced representation learning framework that,for the first time,enables unified virtual characterization from molecules to devices.Pre-trained on over ten million selfgenerated conjugated molecules and dimers,OCNet learns generalizable microscopic representations comparable to expert-crafted features.As a result,it surpasses state-of-the-art models by over 20%in predicting key computed and experimental molecular optoelectronic properties.OCNet further provides the first transferable model for predicting transfer integrals in thin films,enabling accurate mesoscale carrier mobility estimation via multiscale simulations.By integrating tight-binding-level electronic descriptors,OCNet achieves near real-time,accurate prediction of device power conversion efficiency.Together,OCNet offers a unified and scalable foundation for virtual characterization of organic materials across multiple scales,with broad applicability in photovoltaics,displays,and sensing. 展开更多
关键词 virtual characterization structure property performance relationships multi scale characterization organic functional devices knowledge enhanced representation learning ocnet unified virtual characterization domain knowledge enhanced
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