There are 1 repository under laplace-equation topic.
Julia package for solving singular integral equations
Implementation of the 12 steps approach to the Navier-Stokes equations, essential for simulating fluid dynamics.
Author's implementation of SIGGRAPH 2023 paper, "A Practical Walk-on-Boundary Method for Boundary Value Problems."
Monte Carlo Method to Solve Laplace and Poisson Equations with example for EE447 High Voltage Engineering
In numerical analysis, a numerical method is a mathematical tool designed to solve numerical problems. The implementation of a numerical method with an appropriate convergence check in a programming language is called a numerical algorithm
Materials for "Differences between OpenACC and OpenMP offloading models" tutorial.
A Maxima package to compute Fourier series and solve partial differential equations.
Solves the Laplace equation for a specific mesh and boundaries.
MPI user-level checkpoint library
Andromeda is a Boundary Element Method based code, which solves the Laplace and Stokes partial differential equations in 3D.
Fast Monte Carlo estimator for numerically solving a Poisson PDE.
ラプラス方程式を代用電荷法で解くプログラムです。
Grapher software able to show the distribution of Electric potential in a two dimensional surface, by solving the Laplace equation with a discrete method. This project has been developed in MatLab and it´s tool, App Designer. The final result allows to show the distribution of the electric potential produced by an specific geometric configuration: a square shell with a triangular, circular an square equipotential surface. Finally, this program can be considered as a multi-solver of the Laplace equation because of it´s capacity of being extrapolated to other areas.
Proyectos de modelación y computación gráfica.
This is a Numerical Analysis course project, implementing numerical analysis methods.
Full finite-element code from scratch with SIMD-accelerated equation solver based on conforming finite elements with tests and example solution to Laplace equation.
APPM 4660 Intermediate Numerical Analysis II final project [Spring 2021].
Retrieves temperature information from Arduino and computes the (approximate) solution of the Laplace equation problem
General n-dimensional solver of Laplace's equation on a unit line/square/cube.
Laplace's equation for temp profile of cold room solved using CUDA implementation of relaxation method
2D Heat Flow Simulation in rectangular domain by solving Laplace Equation using Finite Difference Method.
Laplace equation solver using PyQt5 as visualization
Simulation and visualization of temperature distribution in a material, using the two-dimensional Laplace equation and finite differences for Scientific Visualization and Virtual Reality course. Grade: 10/10.
Coursework: 2D Laplace Equation FEM: C++ // Illustrations and analysis: Jupyter Notebook
Solving the Laplace Equation numerically using Finite Difference Method
This repository features MATLAB projects using Finite Difference Methods to solve Laplace's equation and Maxwell's equations. It includes a 2D Laplace's Equation Solver and a 1D FDTD Simulation with wave propagation and absorption, providing practical understanding and visualization tools.
Implementation of Poisson Image Editing (Patrick Perez et al. Microsoft Research UK)
Numerical solution of the Laplace equation implementing the Jacobi method
just a simple example project showcasing the usage of Eigen for solving the Laplace equation on a 2d grid, and its usefulness.
This project demonstrates the use of finite difference methods to solve Laplace's and Maxwell's equations using MATLAB. It includes a 2D solver for potential distribution and a 1D FDTD simulation for electromagnetic wave propagation.
Solving Laplace's equation in 2D using the method of relaxation.