Pinned Repositories
citcomcu
CitcomCU is a finite element parallel code capable of modeling thermochemical convection in a three dimensional domain appropriate for convection within the Earth's mantle.
citcoms
CitcomS is a finite element code designed to solve compressible thermochemical convection problems relevant to Earth's mantle.
FDCSGm
FDMIC_Geodynamics.jl
GeoParams.jl
Define material parameters, perform non-dimensionalization and provide computational routines for material parameters in geodynamic simulations
GeophysicalModelGenerator.jl
Import, process and interpret geophysical data sets to be used in numerical models.
hc
HC is a global mantle circulation solver following Hager & O'Connell (1981) which can compute velocities, tractions, and geoid for simple density distributions and plate velocities.
JustRelax.jl
Pseudo-transient accelerated iterative solvers
LaMEM
LaMEM (Lithosphere and Mantle Evolution Model) - a 3D parallel code to simulate geodynamic and geomechanical processes
LaMEM.jl
Julia interface to LaMEM (Lithosphere and Mantle Evolution Model)
LukasFuchs's Repositories
LukasFuchs/citcomcu
CitcomCU is a finite element parallel code capable of modeling thermochemical convection in a three dimensional domain appropriate for convection within the Earth's mantle.
LukasFuchs/citcoms
CitcomS is a finite element code designed to solve compressible thermochemical convection problems relevant to Earth's mantle.
LukasFuchs/FDCSGm
LukasFuchs/FDMIC_Geodynamics.jl
LukasFuchs/GeoParams.jl
Define material parameters, perform non-dimensionalization and provide computational routines for material parameters in geodynamic simulations
LukasFuchs/GeophysicalModelGenerator.jl
Import, process and interpret geophysical data sets to be used in numerical models.
LukasFuchs/hc
HC is a global mantle circulation solver following Hager & O'Connell (1981) which can compute velocities, tractions, and geoid for simple density distributions and plate velocities.
LukasFuchs/JustRelax.jl
Pseudo-transient accelerated iterative solvers
LukasFuchs/LaMEM
LaMEM (Lithosphere and Mantle Evolution Model) - a 3D parallel code to simulate geodynamic and geomechanical processes
LukasFuchs/LaMEM.jl
Julia interface to LaMEM (Lithosphere and Mantle Evolution Model)
LukasFuchs/StokesVEP_2D