Simulation Package for Ab-initio Real-space Calculations
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Updated
Oct 3, 2024 - C
Simulation Package for Ab-initio Real-space Calculations
A Julia Toolbox for Geophysical Modeling and Inverse Problems
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The 2DECOMP&FFT library provides access to a slabs and pencil decompositions as well as FFTs.
Python package for the analysis and visualisation of finite-difference fields.
A website for pricing options using black scholes model and different monte carlo methods
Implementation of the Thomas Method and Finite Difference Method to solve differential equations
Solution of the heat/diffusion and time-dependent Schrodinger equations with Crank-Nicolson and Euler methods
Fortran 77 Program for EM Modelling
Ubermag webpages
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A Julia package for discrete approximations of differential operators
Python package for solving partial differential equations using finite differences.
The repository contains phase field codes using internal procedures. The codes are 2D and are not optimized
Masters dissertation numerically solving Hamilton-Jacobi-Bellman (HJB) equation in an extension of Merton's portfolio allocation problem using finite difference.
OOMMF calculator.
This repository demonstrates the use of whole array technique in Fortran programming language for phase-field codes. The codes are 2D.
The repository contains phase field codes using index array programming technique. The codes are 2D and are not optimized.
This repository will contain a simulation of both the 2D heat and wave equation in a rectangular and circular room using the Finite Difference Method.
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