47 results for “topic:finite-differences”
Python package for numerical derivatives and partial differential equations in any number of dimensions.
High accuracy derivatives, estimated via numerical finite differences (formerly FDM.jl)
Interactive web-based simulator of electromagnetic waves
Single-file implementations of 2D and 3D acoustic and elastic wave propagation in time domain using finite-differences(FDTD). Simple formulation and implementation
A framework for the automated derivation and parallel execution of finite difference solvers on a range of computer architectures.
Collection of Matlab, Python and Jupyter Notebook scripts for Finite-Difference seismic wave simulation in 1-D and 2-D
Modern Fortran Numerical Differentiation Library
Python-Fortran bindings examples
Simulates the propagation of the acoustic wave using the finite difference method in 2D and 3D domains.
Finite difference weights for any derivative order on arbitrarily spaced grids. C89, C++ and Fortran 90 implementations with Python bindings.
The Mimetic Operators Library Enhanced
A simple finite-difference library using Eigen.
Mimetic Operators Library Enhanced
A Finite Difference Method Engine in C++
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).
OpenCAL, the Open Computing Abstraction Layer Domain Specific Language for Structured Grid Meshes
Julia library for function approximation with compact basis functions
Set of modern Fortran numerical methods.
Conjugate gradients minimization
Implementation of Numerical Analysis algorithms/methods in Python
R package for accurate and quick numerical derivatives of arbitrary order
Modern Fortran utility to generate optimized finite difference schemes
Finite difference methods.
🧮 Solving the Black-Scholes equation by the finite-difference methods and researching of the Cuthill-McKee and the minimum degree algorithms
Building a system for face recognition and gender classification. The dataset comes from FaceScrub.
Classical Finite Differences Schemes for numerically solve different Partial Differential Equations.
Developing Python implementation of simplified nearshore spectral wave models.
MATLAB code that solves and compiles the steady flow around a rotating sphere with variable viscosity
A solution, written in C, to Korteweg de Vries using the fourth order Runge-Kutta method and finite differences.
PyLearners