Computational Electromagnetics and Electrodynamics | NVIDIA

[/page/home.html] USA - United States Drivers GeForce Drivers All NVIDIA Drivers Products Processors GeForce Quadro Tegra Tesla NVIDIA GRID NVS Legacy Technologies Advanced Rendering CUDA G-SYNC Multi-GPU Optimus OptiX PhysX SLI VisionWorks Windows 8 All Technologies NVIDIA GRID Virtual Desktops and Apps GRID VCA Cloud Gaming NVIDIA VCA 3D Vision Platforms Desktops Notebooks Tablets Smartphones Workstations Servers High Performance Computing Automotive Embedded SHIELD Communities GeForce.com TegraZone.com GPU Technology Conference PartnerForce NVIDIA Forums CUDA Zone Developer Zone NVIDIA Research 3D Vision Live GPU Venture Zone NVIDIA Blog Facebook US Twitter US Youtube Flickr Support Shop About NVIDIA Company Information Newsroom NVIDIA Blog Investors Citizenship Visual Computing NVIDIA Home > Products > High Performance Computing > Industry Applications > Computational Electromagnetics and Electrodynamics (CEE) Subscribe GPU Computing Solutions Main What is GPU Computing? Industry Software Solutions Tesla Workstation Solutions Tesla Data Center Solutions Tesla Bio Workbench Fermi GPU Computing Architecture CUDA on ARM DevKit Where to Buy Contact Us Software and Hardware Info Tesla Product Literature Tesla Software Features Software Development Tools CUDA Training and Consulting Partners OpenACC GPU Directives GPU Cloud Computing News and Case Studies The Race for Better Science Webinars Tesla Videos on YouTube Tesla Case Studies News and Articles FOLLOW US NVIDIA Blog Facebook Twitter YouTube 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 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 Solutions: 3DTV Play | 3D PCs | Optimus | Graphics Cards | GRID | High Performance Computing | Visualization | CUDA | Tegra Android App | Cool Stuff Corporate: Events | Affiliate Program | Developers | Channel Partners | Careers | RSS Feeds | Newsletter | Contact Us | Security Copyright © 2014 NVIDIA Corporation Legal Info | Privacy Policy