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Large-eddy simulations with ClimateMachine v0.2.0: a new open-source code for atmospheric simulations on GPUs and CPUs

Akshay Sridhar, Yassine Tissaoui, Simone Marras, Zhaoyi Shen, Charles Kawczynski, Simon Byrne, Kiran Pamnany, Maciej Waruszewski, Thomas H. Gibson, Jeremy E. Kozdon, Valentin Churavy, Lucas C. Wilcox, Francis X. Giraldo, Tapio Schneider

2022Geoscientific model development21 citationsDOIOpen Access PDF

Abstract

Abstract. We introduce ClimateMachine, a new open-source atmosphere modeling framework which uses the Julia language and is designed to be scalable on central processing units (CPUs) and graphics processing units (GPUs). ClimateMachine uses a common framework both for coarser-resolution global simulations and for high-resolution, limited-area large-eddy simulations (LESs). Here, we demonstrate the LES configuration of the atmosphere model in canonical benchmark cases and atmospheric flows using a total energy-conserving nodal discontinuous Galerkin (DG) discretization of the governing equations. Resolution dependence, conservation characteristics, and scaling metrics are examined in comparison with existing LES codes. They demonstrate the utility of ClimateMachine as a modeling tool for limited-area LES flow configurations.

Topics & Concepts

Benchmark (surveying)DiscretizationScalabilityComputational scienceParallel computingComputer scienceLarge eddy simulationAtmosphere (unit)Code (set theory)ScalingAtmospheric modelDiscontinuous Galerkin methodGraphicsAlgorithmMeteorologyComputer graphics (images)PhysicsGeometryMathematicsGeologyProgramming languageFinite element methodSet (abstract data type)GeodesyMathematical analysisThermodynamicsDatabaseTurbulenceMeteorological Phenomena and SimulationsComputational Fluid Dynamics and AerodynamicsFluid Dynamics and Turbulent Flows
Large-eddy simulations with ClimateMachine v0.2.0: a new open-source code for atmospheric simulations on GPUs and CPUs | Litcius