Pinned Repositories
academic-kickstart
asdf-library
Adaptable Seismic Data Format
asdf_sextant
Experimental graphical user interface to explore ASDF data sets
aspect
A parallel, extensible finite element code to simulate convection in both 2D and 3D models.
AxiSEM-3D
A spectral element method for wave propagation in 3D media and geometry
AxiSEM-3D-1
New AxiSEM3D
EllipticiPy
Python package for the calculation of ellipticity corrections for seismic waves.
grd2vtk
Tools to convert geographic netcdf/GMT grd files, polygons, vectors, and earthquakes to VTK objects
IGPP_ShortCourse_2022_Backup
LASIF_2.0
An End-to-end Workflow for Adjoint Full Seismic Waveform Inversions, specifically designed for SALVUS. For a tutorial, please download the Jupyter notebook at https://github.com/solvithrastar/LASIF_tutorials
GeoSinoLMU's Repositories
GeoSinoLMU/grd2vtk
Tools to convert geographic netcdf/GMT grd files, polygons, vectors, and earthquakes to VTK objects
GeoSinoLMU/EllipticiPy
Python package for the calculation of ellipticity corrections for seismic waves.
GeoSinoLMU/IGPP_ShortCourse_2022_Backup
GeoSinoLMU/LASIF_2.0
An End-to-end Workflow for Adjoint Full Seismic Waveform Inversions, specifically designed for SALVUS. For a tutorial, please download the Jupyter notebook at https://github.com/solvithrastar/LASIF_tutorials
GeoSinoLMU/aspect
A parallel, extensible finite element code to simulate convection in both 2D and 3D models.
GeoSinoLMU/AxiSEM-3D-1
New AxiSEM3D
GeoSinoLMU/CC-FJpy
A Python Package for seismic ambient noise cross-correlation and the frequency-Bessel transform method
GeoSinoLMU/cpython
The Python programming language
GeoSinoLMU/DAS_Auto
GeoSinoLMU/dealii
The development repository for the deal.II finite element library.
GeoSinoLMU/exadg
ExaDG - High-Order Discontinuous Galerkin for the Exa-Scale
GeoSinoLMU/firedrake
Firedrake is an automated system for the portable solution of partial differential equations using the finite element method (FEM)
GeoSinoLMU/great_circle_calculator
This is a collection of equations and formulas that I've been using across many projects to compute various distances using great circle calculations.
GeoSinoLMU/hyteg
HyTeG (Hybrid Tetrahedral Grids) is a C++ framework for large scale high performance finite element simulations based on (but not limited to) geometric multigrid. This is a mirror of the official https://i10git.cs.fau.de/hyteg/hyteg. Please create Issues there!
GeoSinoLMU/IGPP_ShortCourse_2022
Short Course in Computational Methods
GeoSinoLMU/meshio
:spider_web: input/output for many mesh formats
GeoSinoLMU/modules
Environment Modules: provides dynamic modification of a user's environment
GeoSinoLMU/p4pdes
C and Python examples from my book on using PETSc to solve PDEs
GeoSinoLMU/PickDispersionCurves
A simple python GUI for extracting dispersion curves from dispersion spectrum.
GeoSinoLMU/presentday-agegridding
Workflow to generate present-day age grid
GeoSinoLMU/PythonHPC
PythonHPC
GeoSinoLMU/PyTorch-LBFGS
A PyTorch implementation of L-BFGS.
GeoSinoLMU/SeisSol
A scientific software for the numerical simulation of seismic wave phenomena and earthquake dynamics
GeoSinoLMU/surfpy
A Python package for seismic surface wave tomography and receiver function analysis
GeoSinoLMU/SWIT-1.0
Seismic Waveform Inversion Toolbox-1.0
GeoSinoLMU/TheoreticalDispersionSpectrum
Theoretical Dispersion Spectrum calculation by the Generalized Reflection and Transmission Method
GeoSinoLMU/TransmissionFibreOptics
GeoSinoLMU/xarray
N-D labeled arrays and datasets in Python
GeoSinoLMU/XdmfWriter
Small library for writing time series of unstructured meshes in XDMF/HDF5
GeoSinoLMU/zenodopy
Manage Zenodo projects with Python