Implementation of the 12 steps approach to the Navier-Stokes equations, essential for simulating fluid dynamics.
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Updated
Jun 7, 2024 - C++
Implementation of the 12 steps approach to the Navier-Stokes equations, essential for simulating fluid dynamics.
This is our Github Repository containing the Python projects for the course: Introduction to Programming and Numerical Analysis at the University of Copenhagen
Exchange renormalization due to electron-phonon coupling in square lattice
A repository of personal physics projects
A Julia finite element tearing and interconnecting (FETI) prototype implementation.
In this repository I have all the labs from Brac University Fall2023 semester.
Queueing Theory Algorithms for Python, Java, and MATLAB
Fortran Standard Library
Numerical Methods Lecture: This repository contains the material created during the lecture Numerical Methods for Mathematical Finance.
Generative Pre-Trained Physics-Informed Neural Networks Implementation
A numeric solver for Navier-Stokes equations
Code written for an ongoing analysis of the distribution of metals in the galaxies from the Auriga project.
Benchmark near-term quantum algorithms for Partial Differential Equations (PDEs)
Doing non-Cartesian MR Imaging has never been so easy.
Optimize floating-point expressions for accuracy
Variational approximation by Gridap package to resolve T.I.S.E. in Julia
useful numerical algorithms and operations
Kratos Multiphysics (A.K.A Kratos) is a framework for building parallel multi-disciplinary simulation software. Modularity, extensibility and HPC are the main objectives. Kratos has BSD license and is written in C++ with extensive Python interface.
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