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.
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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
- Other Tesla Vertical Solutions
- CUDA Software development tools & libraries
- Buy Tesla
MATLAB is a registered trademark of The MathWorks, Inc.
ArrayFire is a trademark of AccelerEyes