- advanced architectures and programming models
- advanced numerical methods for anisotropic diffusion
- algorithms for ocean models and coupled model remapping
- biogeochemistry
- combustion modeling
- computational fluid dynamics
- consistent energy transfers
- continuous time random walk methods
- coupled ocean - sea ice - atmosphere boundary layer dynamics
- coupled ocean atmosphere interactions
- differentiable programming and machine learning
- discontinuous Galerkin methods
- discrete fracture network modeling
- earth system modeling
- ENO/WENO
- explicit time integration algorithms for fdem/dem/fem
- finite element methods
- finite volume methods
- fire behavior modeling
- geostrophic balance
- fracture and fragmentation solutions for continuum- and discontinuum-based simulation platforms
- fully coupled polar and global earth system modeling
- geophysical flows
- global carbon cycle
- helicity conservation
- high-order numerical methods
- HPC performance
- efficient solvers and transport-stabilized discretizations
- Lagrangian dynamics
- Lagrangian hydrodynamics
- large eddy simulation (LES) analysis and model development
- linear and nonlinear solvers for PDES
- machine learning
- mesh generation
- mimetic finite difference methods
- model reduction
- modeling and simulation of high strain rate processes
- multi-material flows
- multigrid methods
- multiphase flows
- numerical linear algebra
- numerical modeling of subsurface flow and transport
- parameterization (modeling) of turbulence in large scale ocean and atmosphere models
- particulate formation
- physical oceanography
- quantum computing
- reduced order modeling
- residual distribution
- sea ice mechanics
- structure preserving finite element methods
- synthesis of satellite measurements with earth system models
- time integration methods for numerical pdes
- turbulence modeling reactive flows
- uncertainty quantification methods
- wave
See Our Work
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