Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs

With the aid of the newly developed ‘Sunway’ heterogeneous-architecture supercomputer, which has world-leading HPC (high-performance computer) capability, a series of high-resolution coupled Earth system models (SW-HRESMs) with up to 5 km of atmosphere and 3 km of ocean have been developed. These mo...

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Autores principales: Zhang, Shaoqing, Xu, Shiming, Fu, Haohuan, Wu, Lixin, Liu, Zhao, Gao, Yang, Zhao, Chun, Wan, Wubing, Wan, Lingfeng, Lu, Haitian, Li, Chenling, Liu, Yanfei, Lv, Xiaojing, Xie, Jiayu, Yu, Yangyang, Gu, Jun, Wang, Xuantong, Zhang, Yan, Ning, Chenhui, Fei, Yunlong, Guo, Xiuwen, Wang, Zhaoying, Wang, Xue, Wang, Zhenming, Qu, Binglin, Li, Mingkui, Zhao, Haoran, Jiang, Yingjing, Yang, Guang, Lu, Lv, Wang, Hong, An, Hong, Zhang, Xin, Zhang, Yu, Ma, Wentao, Yu, Fujiang, Xu, Jing, Lin, Xiaopei, Shen, Xueshun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10171631/
https://www.ncbi.nlm.nih.gov/pubmed/37181085
http://dx.doi.org/10.1093/nsr/nwad069
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author Zhang, Shaoqing
Xu, Shiming
Fu, Haohuan
Wu, Lixin
Liu, Zhao
Gao, Yang
Zhao, Chun
Wan, Wubing
Wan, Lingfeng
Lu, Haitian
Li, Chenling
Liu, Yanfei
Lv, Xiaojing
Xie, Jiayu
Yu, Yangyang
Gu, Jun
Wang, Xuantong
Zhang, Yan
Ning, Chenhui
Fei, Yunlong
Guo, Xiuwen
Wang, Zhaoying
Wang, Xue
Wang, Zhenming
Qu, Binglin
Li, Mingkui
Zhao, Haoran
Jiang, Yingjing
Yang, Guang
Lu, Lv
Wang, Hong
An, Hong
Zhang, Xin
Zhang, Yu
Ma, Wentao
Yu, Fujiang
Xu, Jing
Lin, Xiaopei
Shen, Xueshun
author_facet Zhang, Shaoqing
Xu, Shiming
Fu, Haohuan
Wu, Lixin
Liu, Zhao
Gao, Yang
Zhao, Chun
Wan, Wubing
Wan, Lingfeng
Lu, Haitian
Li, Chenling
Liu, Yanfei
Lv, Xiaojing
Xie, Jiayu
Yu, Yangyang
Gu, Jun
Wang, Xuantong
Zhang, Yan
Ning, Chenhui
Fei, Yunlong
Guo, Xiuwen
Wang, Zhaoying
Wang, Xue
Wang, Zhenming
Qu, Binglin
Li, Mingkui
Zhao, Haoran
Jiang, Yingjing
Yang, Guang
Lu, Lv
Wang, Hong
An, Hong
Zhang, Xin
Zhang, Yu
Ma, Wentao
Yu, Fujiang
Xu, Jing
Lin, Xiaopei
Shen, Xueshun
author_sort Zhang, Shaoqing
collection PubMed
description With the aid of the newly developed ‘Sunway’ heterogeneous-architecture supercomputer, which has world-leading HPC (high-performance computer) capability, a series of high-resolution coupled Earth system models (SW-HRESMs) with up to 5 km of atmosphere and 3 km of ocean have been developed. These models can meet the needs of multiscale interaction studies with different computational costs. Here we describe the progress of SW-HRESMs development, with an overview of the major advancements made by the international Earth science community in HR-ESMs. We also show the preliminary results of SW-HRESMs with regard to capturing major weather-climate extremes in the atmosphere and ocean, stressing the importance of permitted clouds and ocean submesoscale eddies in modeling tropical cyclones and eddy-mean flow interactions, and paving the way for further model development to resolve finer scales with even higher resolution and more realistic physics. Finally, in addition to increasing model resolution, the development procedure for a non-hydrostatic cloud and ocean submesoscale resolved ESM is discussed, laying out the major scientific directions of such a huge modeling advancement.
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spelling pubmed-101716312023-05-11 Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs Zhang, Shaoqing Xu, Shiming Fu, Haohuan Wu, Lixin Liu, Zhao Gao, Yang Zhao, Chun Wan, Wubing Wan, Lingfeng Lu, Haitian Li, Chenling Liu, Yanfei Lv, Xiaojing Xie, Jiayu Yu, Yangyang Gu, Jun Wang, Xuantong Zhang, Yan Ning, Chenhui Fei, Yunlong Guo, Xiuwen Wang, Zhaoying Wang, Xue Wang, Zhenming Qu, Binglin Li, Mingkui Zhao, Haoran Jiang, Yingjing Yang, Guang Lu, Lv Wang, Hong An, Hong Zhang, Xin Zhang, Yu Ma, Wentao Yu, Fujiang Xu, Jing Lin, Xiaopei Shen, Xueshun Natl Sci Rev Research Article With the aid of the newly developed ‘Sunway’ heterogeneous-architecture supercomputer, which has world-leading HPC (high-performance computer) capability, a series of high-resolution coupled Earth system models (SW-HRESMs) with up to 5 km of atmosphere and 3 km of ocean have been developed. These models can meet the needs of multiscale interaction studies with different computational costs. Here we describe the progress of SW-HRESMs development, with an overview of the major advancements made by the international Earth science community in HR-ESMs. We also show the preliminary results of SW-HRESMs with regard to capturing major weather-climate extremes in the atmosphere and ocean, stressing the importance of permitted clouds and ocean submesoscale eddies in modeling tropical cyclones and eddy-mean flow interactions, and paving the way for further model development to resolve finer scales with even higher resolution and more realistic physics. Finally, in addition to increasing model resolution, the development procedure for a non-hydrostatic cloud and ocean submesoscale resolved ESM is discussed, laying out the major scientific directions of such a huge modeling advancement. Oxford University Press 2023-03-20 /pmc/articles/PMC10171631/ /pubmed/37181085 http://dx.doi.org/10.1093/nsr/nwad069 Text en © The Author(s) 2023. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Zhang, Shaoqing
Xu, Shiming
Fu, Haohuan
Wu, Lixin
Liu, Zhao
Gao, Yang
Zhao, Chun
Wan, Wubing
Wan, Lingfeng
Lu, Haitian
Li, Chenling
Liu, Yanfei
Lv, Xiaojing
Xie, Jiayu
Yu, Yangyang
Gu, Jun
Wang, Xuantong
Zhang, Yan
Ning, Chenhui
Fei, Yunlong
Guo, Xiuwen
Wang, Zhaoying
Wang, Xue
Wang, Zhenming
Qu, Binglin
Li, Mingkui
Zhao, Haoran
Jiang, Yingjing
Yang, Guang
Lu, Lv
Wang, Hong
An, Hong
Zhang, Xin
Zhang, Yu
Ma, Wentao
Yu, Fujiang
Xu, Jing
Lin, Xiaopei
Shen, Xueshun
Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs
title Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs
title_full Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs
title_fullStr Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs
title_full_unstemmed Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs
title_short Toward Earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core HPCs
title_sort toward earth system modeling with resolved clouds and ocean submesoscales on heterogeneous many-core hpcs
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10171631/
https://www.ncbi.nlm.nih.gov/pubmed/37181085
http://dx.doi.org/10.1093/nsr/nwad069
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