Mimetic Operators Library Enhanced
-
Updated
May 31, 2024 - MATLAB
Mimetic Operators Library Enhanced
High accuracy derivatives, estimated via numerical finite differences (formerly FDM.jl)
semba-fdtd is a finite-differences in time domain solver with special focus on EMC problems. semba-fdtd can be used as a standalone solver or integrated within a FreeCAD workbench (www.elemwave.com).
Finite difference weights for any derivative order on arbitrarily spaced grids. C89, C++ and Fortran 90 implementations with Python bindings.
A framework for the automated derivation and parallel execution of finite difference solvers on a range of computer architectures.
Solver for the HJB equation associated to the importance sampling problem of diffusion processes
Classical Finite Differences Schemes for numerically solve different Partial Differential Equations.
Modern Fortran Numerical Differentiation Library
Developing Python implementation of simplified nearshore spectral wave models.
Solution of Poisson equation using finite difference on a 2D mesh with boundary conditions different from 0 on one side
The Mimetic Operators Library Enhanced
Python package for numerical derivatives and partial differential equations in any number of dimensions.
Julia library for function approximation with compact basis functions
Implementation of Numerical Analysis algorithms/methods in Python
MATLAB code that solves the Boundary Layer equations for a rotating sphere
MATLAB code that solves the Stewartson (1958) system for the equatorial flow around a rotating sphere.
MATLAB code that solves and compiles the steady flow around a rotating sphere with variable viscosity
MATLAB code that solves and compiles the steady flow around a rotating sphere
Fortran code applying the finite differences method to run one-dimensional calculations based on self-consistent field theory
A simple finite-difference library using Eigen.
Add a description, image, and links to the finite-differences topic page so that developers can more easily learn about it.
To associate your repository with the finite-differences topic, visit your repo's landing page and select "manage topics."