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Computational Electromagnetics and Electrodynamics | NVIDIA

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Computational Electromagnetics and Electrodynamics

Electromagnetics and electrodynamics applications using CUDA-enabled GPUs are widely deployed with customers such as Motorola, Kodak, Nokia, etc. For example, as shown in the charts and video below, GPU-based acceleration for FDTD scales with the number of GPUs.


FDTD acceleration using GPUs Acceleware	Jelena Vuckovic's group at Stanford

Electrodynamics Software on CUDA

Acceleware FDTD Solvers
Acceleware Electromagnetic Solutions
Quantum electrodynamics library
CST Microwave Studio
Accelerating simulations of light scattering based on FDTD method with general purpose GPUs
GPMAD : Particle beam dynamics simulator
SEMCAD X

Technical Reports on Electrodynamics on CUDA

CUDA tutorial on 3D finite difference presented as part of CUDA Tutorial at Supercomputing '08.
Maxwell equation solver from Rice

Nodal Discontinuous Galerkin Methods on Graphics Processors
Prof Tim Warburton from Rice University talks about his work on CUDA

Acceleware electromagnetic simulations
Implementation of matrix-type FDTD algorithms on a graphics accelerator

See Also

ArrayFire GPU function library for C, C++, FORTRAN
MATLAB®
Tesla/CUDA Success stories
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CUDA Software development tools & libraries
Buy Tesla

MATLAB is a registered trademark of The MathWorks, Inc.
ArrayFire is a trademark of AccelerEyes

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