Exercises done during "Short course on high performance simulation with high level languages" imparted by André Brodtkorb
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Updated
Apr 14, 2016 - Python
Exercises done during "Short course on high performance simulation with high level languages" imparted by André Brodtkorb
🔥 Solving the heat equation on square plate with finite element method in Python.
Charla en la PyConEs-2016 (http://2016.es.pycon.org/es/).
Parallel C program in OpenMP and MPI (check branch MPIwOMP) - modelling of Heat Equation.
Image restoration by PDE and by Wavelet transform
FEM for parabolic and mixed problems
Solving the 2D steady state heat equation using the Successive Over Relaxation (SOR) explicit and the Line Successive Over Relaxation (LSOR) Implicit method
A solution, written in C, to the heat equation using Crank-Nicholson and finite differences.
Two solutions, written in MATLAB, for solving the viscous Burger's equation. They are both spectral methods: the first is a Fourier Galerkin method, and the second is Collocation on the Tchebyshev-Gauß-Lobatto points.
Solving some examples of partial differential equations (PDE) using fenics.
A Semi-Continuous Wildfire Model using the Heat Equation
It's a modification of the existent Netlogo model simulated through using R and Python
Heat World difference equation using OpenCL
In this code pseudo-spectral method is used to solve one-dimensional heat equation.
Iterative solvers with MPI parallelization
Finite-Difference Approximations to the Heat Equation. Implementation of schemes: Forward Time, Centered Space; Backward Time, Centered Space; Crank-Nicolson.
Variable directions method for heat equation with parallel implementation using MPI and "sudoku" mapping.
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