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 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. A series of ultra-fine resolution coupled Earth system models permitting clouds and ocean submesoscales have been developed based on heterogeneous many-core HPCs. These high-resolution simulations in general exhibit substantially improved capability of delineating major weather-climate extremes in the atmosphere and ocean, paving for developing more advanced models that can foretell more detailed atmosphere and ocean activities.