|  |
| |
 |
|
INDUSTRY APPLICATIONS:
- Seismic simulations
- Reservoir simulations
- Electromagnetic finite difference time domain (FDTD)
|
|
GPU's represent an untapped resource well-suited for a wide variety of scientific applications including many-body, dense linear algebra and finite difference time domain (FDTD). GPU's are particularly effective for highly parallel floating point applications.
For more information on visual computing call 410.670.4540 or e-mail gpucomputing@stoneridgetechnology.com .
 |
SCVF (STONE RIDGE CUDA VISUALIZATION FRAMEWORK)
You've ported your scientific simulation to CUDA and want to visualize the results, but the 950 page OpenGL SuperBible is the stuff of nightmares. The Stone Ridge CUDA Visualization Framework (SCVF) was developed with you in mind. SCVF requires no knowledge of graphics APIs to achieve compelling visual demonstrations of your work that will impress your managers and friends alike.
Features:
- Achieve rapid, easy, CUDA-powered visualization of physical simulations
- Visualize free particle systems, 2D and 3D
- Switch seamlessly between CPU and GPU computations to compare performance
- Pause a running simulation
- Render one time step of a simulation
- Render all displayed frames to PNG files, suitable for creating HD video
Download SCVF for free now! Our framework is open source software that includes code from NVidia and is distributed under the BSD license with: png++, tclap, and AntTweakBar. Be sure to check out the User's Guide included in the download.
We want to hear from you about your experiences using SCVF. To provide feedback or request professional services, please contact us at scvf@stoneridgetechnology.com.
|
 |
|
|
|
| | | | |
|
