ZiguoFu

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multitaper_toolbox

A multitaper spectral estimation toolbox implemented in Matlab, Python, and R

Language:Python5700

mtspec

Python library for multitaper spectral estimations

Language:PostScriptGPL-3.06800

plot_Lune_and_statistical_moment_tensor_solution

Plot MTINV/MTFIT data for statistical Lune with MT inversions plotted too.

200

MTid

Classification of seismic events based on moment tensor solutions

Language:PythonMIT300

GEOS626_seis

GEOS 626 Applied Seismology (U. Alaska Fairbanks)

Language:TeX900

GEOS627_inverse

GEOS 627 Inverse Problems and Parameter Estimation (U. Alaska Fairbanks)

Language:Jupyter Notebook700

mtbeach

seismic moment tensors and visualization

Language:MathematicaMIT1800

compearth

compearth: surfacevel2strain and momenttensor

Language:MATLABMIT3600

Differential-Equations

Jupyter notebooks on differential equations and how to solve them using Python.

Language:Jupyter Notebook5700

seismic_analytic

Various analytical solutions in python

Language:Python700

CFDPython

A sequence of Jupyter notebooks featuring the "12 Steps to Navier-Stokes" http://lorenabarba.com/

Language:Jupyter NotebookNOASSERTION329700

AeroPython

Classical Aerodynamics of potential flow using Python, for Prof. Barba's course at GW (1st version:Spring 2014, 2nd run:2015).

Language:Jupyter NotebookMIT100

numerical-mooc

A course in numerical methods with Python for engineers and scientists: currently 5 learning modules, with student assignments.

Language:Jupyter NotebookNOASSERTION100

AeroPython

Classical Aerodynamics of potential flow using Python and Jupyter Notebooks

Language:Jupyter NotebookNOASSERTION90700

numerical-mooc

A course in numerical methods with Python for engineers and scientists: currently 5 learning modules, with student assignments.

Language:Jupyter NotebookNOASSERTION88300

Theory-of-seismic-waves-II

Course material for the lecture "Theory of seismic waves II" (SS 2018) @ CAU Kiel

Language:Jupyter Notebook11100

Modflow-6

This is a basic example how to import and run modflow 6's files created in Geomodelr.

Language:Jupyter Notebook100

GW-freyberg30

Notebooks for workflows to accompany 30th Anniversary of Freyberg's classic 1988 Groundwater paper

Language:Jupyter NotebookGPL-3.0100

mf6flopy2019_Neuchatel

Language:Python200

doi_econ_2021

Language:Jupyter Notebook100

modflow-sandiego-2023

Language:Jupyter Notebook500

modflow6-testmodels

MODFLOW 6 example problems

Language:Visual Basic 6.0100

modflow6-largetestmodels

Large Tests for MODFLOW 6

Language:BASIC100

modflow-memphis-2023

Language:Jupyter Notebook100

python-usgs-training

100

flopyrw

A Python interface based on FloPy to configure input files for MODPATH-RW

Language:PythonMIT400

flopy_mf6_work

Learning MODFLOW 6 using the FloPy library

Language:Jupyter NotebookMIT300

Generalized_Poroelastic_Model_FEniCS

The model code for the poroelastic model assocaited with the article title "A generalized poroelastic model using FEniCS with insights into the Noordbergum effect" by Haagenson et al. published in Computers & Geosciences.

Language:PythonMIT1600

tdsr

Time dependent stress response seismicity model. A modified effective Coulomb failure model, that calculates earthquake rate as a function of stress loading and model parameter. See Dahm and Hainzl (2022), http://doi.org/10.1029/2022JB024443 and Dahm, Hainzl and Dahm (2022) https://doi.org/10.5880/GFZ.2.1.2022.002 .

Language:PythonGPL-3.0400

FeeFlow-FLAC3D

Program for converting in 2D or 3D a multi-parameter grid between FeeFLOW and FLAC3D

Language:Python200