CPL7 and Its Application Prospect in the Earth System Models of China
Online published: 2015-05-06
Copyright
The CPL6 (the 6th version coupler developed by the National Center For Atmospheric Research), which is widespread in the Earth System Models (ESMs) of China, limits its development in the higher resolution. The new version CPL7 has a more higher parallel extensibility and can support much higher resolution configurations. The coupling theories of CPL7 were summarized through its couple with the Version 2 Grid-point Atmospheric Model of Institute of Atmospheric Physics, Chinese Academy of Sciences and the relevant experience was provided in the coupling of CPL7 with other components. In according with the development trend of ESMs, CPL7 is recognized to play an important role in the coupling improvement of the Earth System Models in China over the next few years.
Key words: Coupler; Coupling theories; Higher resolution.
Yanli Tang , Wenjie Dong , Lijuan Li , Wei Xue , Bin Wang . CPL7 and Its Application Prospect in the Earth System Models of China[J]. Advances in Earth Science, 2015 , 30(5) : 620 -625 . DOI: 10.11867/j.issn.1001-8166.2015.05.0620
[1] | Flato G.Earth system models: An overview[J]. Wiley Interdisciplinary Reviews: Climate Change, 2011, 2(6): 783-800. |
[2] | Flato G, Marotzke J, Abiodun B, et al.Evaluation of climate models[M]∥Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press, 2013. |
[3] | Valcke S, Balaji V, Craig A, et al.Coupling technologies for Earth System Modeling[J]. Geoscientific Model Development, 2012, 5: 1 589-1 596. |
[4] | Wang Bin, Zhou Tianjun, Yu Yongqiang, et al.The prospects of Earth system model development[J]. Acta Meteorologica Sinica, 2008, 66(6): 857-869. |
[4] | [王斌, 周天军, 俞永强,等. 地球系统模式发展展望[J]. 气象学报, 2008, 66(6): 857-869.] |
[5] | Craig A, Jacob R, Kauffman B, et al.CPL6: The new extensible, high-performance parallel coupler for the community climate system model[J]. International Journal for High Performance Computing Applications, 2005, 19(3): 309-327. |
[6] | Craig A, Vertenstein M, Jacob R.A new flexible coupler for Earth system modeling developed for CCSM4 and CESM1[J]. International Journal for High Performance Computing Applications, 2012, 26(1): 31-42. |
[7] | Hill C, Deluca C, Balaji V, et al.The architecture of the Earth System Modeling framework[J]. Computing in Science & Engineering, 2004, 6(1): 18-28. |
[8] | Valcke S.The OASIS3 coupler: A European climate modeling community software[J]. Geoscientific Model Development, 2013, 5: 373-388. |
[9] | Zhou Tianjun, Yu Yongqiang, Yu Rucong, et al.Coupled Climate System Model coupler review[J]. Chinese Journal of Atmospheric Sciences, 2004, 28(6): 993-1 008. |
[9] | [周天军, 俞永强, 宇如聪,等. 气候系统模式发展中的耦合器研制问题[J]. 大气科学, 2004, 28(6): 993-1 008.] |
[10] | Wu Qizhong, Feng Jinming, Dong Wenjie, et al.Introduction of the CMIP5 experiments carried out by BNU-ESM[J]. Advances in Climate Change Research, 2013, 9(4): 291-294. |
[10] | [吴其重, 冯锦明, 董文杰,等. BNU-ESM模式及其开展的CMIP5试验介绍[J]. 气候变化研究进展, 2013, 9(4): 291-294.] |
[11] | Shu Qi, Qiao Fangli, Song Zhenya.The hindcast and forecast of Arctic sea ice from FIO-ESM[J]. Acta Oceanologica Sinica, 2013,35(5): 37-45. |
[11] | [舒启, 乔方利, 宋振亚. 地球系统模式FIO-ESM对北极海冰的模拟和预估[J]. 海洋学报, 2013,35(5): 37-45.] |
[12] | Li L, Lin P, Yu Y, et al.The flexible Global Ocean-Atmosphere-Land System Model, grid-point version 2: FGOALS-g2[J]. Advance in Atmospheric Science, 2013, 30(3): 543-560. |
[13] | Wu T, Song L, Li W, et al.An overview of BCC climate system model development and application for climate change studies[J]. Journal of Meteorological Research, 2014, 28(1): 34-56. |
[14] | Craig A, Jacob R, Kauffman B, et al.Cpl6: The New Extensible, High-Performance Parallel Coupler for the Community Climate System Model[M]∥Mathematics and Computer Science Division. Argonne National Laboratory, ANL/MCS-P1222-0205, 2005:37. |
[15] | Wan Xiuquan, Liu Zedong, Shen Biao, et al.Introduction to the community Earth System Model and application to high performance computing[J]. Advances in Earth Science, 2014, 29(4): 482-491. |
[15] | [万修全, 刘泽栋, 沈飙,等. 地球系统模式CESM及其在高性能计算机上的配置应用实例[J]. 地球科学进展, 2014, 29(4): 482-491.] |
[16] | Craig A, Mirin A, Taylor M, et al. Computer Performance of the Community Earth System Model. 16th Annual CESM Workshop[Z/OL].[2014-10-10].. |
[17] | Craig T. CPL7 User’s Guide[Z/OL]. [2014-09-25]. |
[18] | Collins W D, Rasch P J, Boville B A, et al.The formulation and atmospheric simulation of the community atmosphere model: CAM3[J]. Journal of Climate, 2006, 19(11): 2 144-2 161. |
[19] | Li L, Wang B, Dong L, et al.Evaluation of grid-point atmospheric model of IAP LASG version 2 (GAMIL2)[J]. Advance in Atmospheric Science, 2013, 30(3): 855-867. |
[20] | Collins W D, Bitz C M, Blackmon M L, et al.The Community Climate System Model version 3 (CCSM3)[J]. Journal of Climate, 2006, 19(11): 2 122-2 143. |
[21] | Li Huimin.Coupled Ensemble Platform and Performance Model for Climate System Model[C].Beijing: Tsinghua University, 2013. |
[21] | [李慧岷. 面向气候系统模式的通量集合耦合平台及性能建模[C].北京: 清华大学, 2013.] |
[22] | Larson J W, Jacob R L, Ong E, et al.The Model Coupling Toolkit API Reference Manual: MCT v. 2.8. Mathematics and Computer Science Division[Z]. Argonne: Argonne National Laboratory, 2012. |
[23] | Larson J, Jacob Rt, Ong E.The Model Coupling Toolkit: A new fortran90 toolkit for building multiphysics parallel coupled models[J]. International Journal for High Performance Computing Applications, 2005, 19: 277-292. |
[24] | Jacob R, Larson J, Ong E.M×N communication and parallel interpolation in community climate system model version 3 using the model coupling toolkit[J]. International Journal for High Performance Computing Applications, 2005,19(3): 293-307. |
[25] | Deelmana E, Singha G, Su M, et al.Pegasus: A framework for mapping complex scientific workflows onto distributed systems[J]. Scientific Programming, 2005, 13: 219-237. |
[26] | Jones P W.First- and second-order conservative remapping schemes for grids in spherical coordinates[J]. Monthly Weather Review, 1998, 127: 2 204-2 210. |
[27] | DeWeaver E, Bitz C M. Atmospheric circulation and its effect on Arctic Sea Ice in CCSM3 simulations at medium and high resolution[J]. Journal of Climate, 2006, 19: 2 415-2 436. |
[28] | Gent P R, Yeager S G, Neale R B, et al.Improvements in a half degree atmosphere/land version of the ccsm[J]. Climate Dynamics, 2010, 34(6): 819-833. |
[29] | Wehner M F, Bala G, Duffy P, et al.Towards direct simulation of future tropical cyclone statistics in a high-resolution global atmospheric model[J]. Advances in Meteorology, 2010, doi:10.1155/2010/915303. |
[30] | He J, Zhang M, Lin W, et al.The WRF nested within the CESM: Simulations of a midlatitude cyclone over the Southern Great Plains[J]. Journal of Advances in Modeling Earth Systems, 2013, 5: 1-12. |
[31] | Hirano H.Usage details of the Earth simulator and sustained performance of actual applications[J]. Journal of Information Processing and Management, 2005, 48(5):268-275. |
[32] | Chen Chun, Zhang Zhiqiang, Lin Hai.Earth simulator and simulation research progress[J]. Advances in Earth Science, 2005, 20(10): 1 135-1 142. |
[32] | [陈春, 张志强, 林海. 地球模拟器及其模拟研究进展[J]. 地球科学进展, 2005, 20(10): 1 135-1 142.] |
[33] | Gao X J, Zhao Z C, Ding Y H, et al.Climate change due to greenhouse effects in China as simulated by a regional climate model[J]. Advances in Atmospheric Sciences, 2001, 18(6): 1 224-1 230. |
[34] | Gao X J, Wang M L, Giorgi F.Climate change over China in the 21st century as simulated by BCC_CSM1.1-RegCM4.0[J]. Atmospheric and Oceanic Science Letters, 2013, 6(5):381-386. |
[35] | Yu E T, Wang H J, Sun J Q.A quick report on a dynamical downscaling simulation over china using the nested model[J]. Atmospheric and Oceanic Science Letters, 2010, 3: 325-329. |
[36] | Zhou T, Zou L, Wu B, et al.Development of Earth/Climate System Models in China: A review from the Coupled Model intercomparison project perspective[J]. Acta Meteorological Sinica, 2014, 72(5): 892-907. |
/
〈 |
|
〉 |