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Edwolf by Kevin Guangran Zhu is an electromagnetic simulator for scattering problems based on the finite-difference time-domain method. The code is writen in C++ with extensive use of design patterns.
C++ Lattice software by Wolfgang Orthuber to investigate discretized Maxwell equations and other discretized systems.
![](http://www.orthuber.com/wqp1.png)
Simple finite-difference time-domain Sfdtd by Paul Panserrieu is the squeleton of an end-user 3D-FDTD code and has been implemented for the comparison of various open boundary conditions in a traditional cubic grid. The code simulates an electric dipole in free space, which means that there is no material implementation.
MAXDGTD-2D is a discontinuous Galerkin code for solving Maxwell's equations in the time-domain by Hassan Fahs. A Fortran90 version will be available in January 2011.
EMWave2D by Wayan Sudiarta is a program for simulating 2D electromagnetic wave propagation. EMWave2D is based on solving the Maxwell’s equations by the finite difference time domain (FDTD) method.
![http://emwave2d.googlecode.com/files/Save-BMP-1.jpg](http://emwave2d.googlecode.com/files/Save-BMP-1.jpg)
In this web page, the conventional and high accuracy nonstandard (NS) finite difference time domain (FDTD) algrotihms and its programs and demonstrations are presented.
![](http://fdtdworld.org/Beginner/Difference/Figs/eq1.png)
Educational FDTD 3d software by Salvador González García
![](http://maxwell.ugr.es/innov/visua0506/lente_biconvexa.jpg)
2D domain Finite-Difference Time-Domain method, FDTD program by Robin Hogan.
![](http://www.met.reading.ac.uk/clouds/maxwell/gradient_z.gif)
FDTD code generators employing Mathematica by Salvador González García.
A free (for non-commercial purposes) Transmission Line Matrix Method (TLM) simulator with an open source graphical user interface by Petr Lorenz.
![](http://www.petr-lorenz.com/emgine/images/stories/screenshots/thumb_hollow1_em_h_01.jpg)
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