WRF–ML v1.0: a bridge between WRF v4.3 and machine learning parameterizations and its application to atmospheric radiative transfer
Abstract In numerical weather prediction (NWP) models, physical parameterization schemes are the most computationally expensive components, despite being greatly simplified. In the past few years, an increasing number of studies have demonstrated that machine learning (ML) parameterizations of subgrid physics have the potential to accelerate and even outperform conventional physics-based schemes. However, as the ML models are commonly implemented using the ML libraries written in Python, very few ML-based parameterizations have been successfully integrated with NWP models due to the difficulty of embedding Python functions into Fortran-based NWP models. To address this issue, we developed a coupler to allow the ML-based parameterizations to be coupled with a widely used NWP model, i.e., the Weather Research and Forecasting (WRF) model. Similar to the WRF I/O methodologies, the coupler provides the options to run the ML model inference with exclusive processors or the same processors for WRF calculations. In addition, to demonstrate the effectiveness of the coupler, the ML-based radiation emulators are trained and coupled with the WRF model successfully.
- Location
-
Deutsche Nationalbibliothek Frankfurt am Main
- Extent
-
Online-Ressource
- Language
-
Englisch
- Bibliographic citation
-
WRF–ML v1.0: a bridge between WRF v4.3 and machine learning parameterizations and its application to atmospheric radiative transfer ; volume:16 ; number:1 ; year:2023 ; pages:199-209 ; extent:11
Geoscientific model development ; 16, Heft 1 (2023), 199-209 (gesamt 11)
- Creator
-
Zhong, Xiaohui
Ma, Zhijian
Yao, Yichen
Xu, Lifei
Wu, Yuan
Wang, Zhibin
- DOI
-
10.5194/gmd-16-199-2023
- URN
-
urn:nbn:de:101:1-2023011204314859627038
- Rights
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
-
15.08.2025, 7:23 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Zhong, Xiaohui
- Ma, Zhijian
- Yao, Yichen
- Xu, Lifei
- Wu, Yuan
- Wang, Zhibin
Other Objects (12)
Machine Learning Parameterization of the Multi-scale Kain-Fritsch (MSKF) Convection Scheme and stable simulation coupled in WRF using WRF-ML v1.0
The WRF greenhouse gas model (WRF-GHG)
A dynamic ammonia emission model and the online coupling with WRF-Chem (WRF-SoilN-Chem v1.0): development and evaluation
Machine learning parameterization of the multi-scale Kain–Fritsch (MSKF) convection scheme and stable simulation coupled in the Weather Research and Forecasting (WRF) model using WRF–ML v1.0
Finanzierung der Betriebe (WRF)
Festleg. Maßn. WRF Info.
WRF-GC: online coupling of WRF and GEOS-Chem for regional atmospheric chemistry modeling, Part 1: description of the one-way model (v1.0)
A dynamic ammonia emission model and the online coupling with WRF–Chem (WRF–SoilN–Chem v1.0): development and regional evaluation in China
Evaluation of the WRF lake module (v1.0) and its improvements at a deep reservoir
The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
Evaluation of the WRF lake module (v1.0) and its improvements at a deep reservoir
WRF-PDAF v1.0: Implementation and Application of an Online Localized Ensemble Data Assimilation Framework
Machine Learning Parameterization of the Multi-scale Kain-Fritsch (MSKF) Convection Scheme and stable simulation coupled in WRF using WRF-ML v1.0
The WRF greenhouse gas model (WRF-GHG)
A dynamic ammonia emission model and the online coupling with WRF-Chem (WRF-SoilN-Chem v1.0): development and evaluation
Machine learning parameterization of the multi-scale Kain–Fritsch (MSKF) convection scheme and stable simulation coupled in the Weather Research and Forecasting (WRF) model using WRF–ML v1.0
Finanzierung der Betriebe (WRF)
Festleg. Maßn. WRF Info.
WRF-GC: online coupling of WRF and GEOS-Chem for regional atmospheric chemistry modeling, Part 1: description of the one-way model (v1.0)
A dynamic ammonia emission model and the online coupling with WRF–Chem (WRF–SoilN–Chem v1.0): development and regional evaluation in China
Evaluation of the WRF lake module (v1.0) and its improvements at a deep reservoir
The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
Evaluation of the WRF lake module (v1.0) and its improvements at a deep reservoir
WRF-PDAF v1.0: Implementation and Application of an Online Localized Ensemble Data Assimilation Framework
Machine Learning Parameterization of the Multi-scale Kain-Fritsch (MSKF) Convection Scheme and stable simulation coupled in WRF using WRF-ML v1.0
The WRF greenhouse gas model (WRF-GHG)
A dynamic ammonia emission model and the online coupling with WRF-Chem (WRF-SoilN-Chem v1.0): development and evaluation
Machine learning parameterization of the multi-scale Kain–Fritsch (MSKF) convection scheme and stable simulation coupled in the Weather Research and Forecasting (WRF) model using WRF–ML v1.0
Finanzierung der Betriebe (WRF)
Festleg. Maßn. WRF Info.
WRF-GC: online coupling of WRF and GEOS-Chem for regional atmospheric chemistry modeling, Part 1: description of the one-way model (v1.0)
A dynamic ammonia emission model and the online coupling with WRF–Chem (WRF–SoilN–Chem v1.0): development and regional evaluation in China
Evaluation of the WRF lake module (v1.0) and its improvements at a deep reservoir
The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
Evaluation of the WRF lake module (v1.0) and its improvements at a deep reservoir