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02-16-11, 07:50 PM
This week‚??s spotlight is on Andr√© R. Brodtkorb. Andr√© is a scientist at SINTEF (http://www.sintef.no/) in Norway, where he works on GPU acceleration and algorithm design. A presenter at GTC 2010 (http://www.nvidia.com/object/gtc2010-presentation-archive.html), Andre‚??s research interests include GPU/heterogeneous computing, simulation of partial differential equations (PDEs) and real-time visualization.

NVIDIA: André, please tell us a bit about yourself.
Andr√©:¬* I first started working with GPUs in 2005, when you could only use graphics APIs like OpenGL. At the University of Oslo, I wrote my master‚??s thesis on ‚??A MATLAB Interface to the GPU,‚?? which was, to my knowledge, one of the first times the GPU was used with MATLAB.

http://blogs.nvidia.com/wp-content/uploads/2011/02/Brodtkorb-199x300.jpg (http://blogs.nvidia.com/wp-content/uploads/2011/02/Brodtkorb.jpg)André R. Brodtkorb of SINTEF

Since then, I have been working on a lot of different applications of GPUs and parallel processing, including direct visualization and video surveillance. I recently completed my Ph.D. thesis ‚?? ‚??Scientific Computing on Heterogeneous Architectures‚?? ‚?? in which shallow water simulations played a central part. Shallow water simulations are extremely important in everything from tsunami warnings to simulation of storm surges and dam breaks, where processing speed is a critical factor.

http://blogs.nvidia.com/wp-content/uploads/2011/02/Dam-Break-Simulation1-300x168.jpg (http://blogs.nvidia.com/wp-content/uploads/2011/02/Dam-Break-Simulation1.jpg)Simulation of a dam break

NVIDIA: How does GPU computing currently play a role in your research?
André: At SINTEF, I work on a range of application areas that have strict demands for computational speed, typically real-time or faster-than-real-time. The GPU is a key piece of the puzzle to achieve these goals. Shallow water simulations, for example, can be used for both creating emergency action plans and for real-time simulation of an ongoing event. In both cases, you want high-quality results as fast as possible. A conventional CPU-based system is often not good enough, because it typically sacrifices quality. Using the GPU, on the other hand, you get high-quality results faster-than-real-time, providing a far better basis for important decisions.

NVIDIA: How did you get interested in shallow water simulation?
Andr√©:¬* Some of my colleagues actually worked on simulating shallow water equations using OpenGL and GPGPU techniques six years ago. They showed that using GPUs could achieve speedups of around 30X over equivalently-tuned CPU code.

In 2010 we were approached by the University of Mississippi‚??s National Center for Computational Hydroscience and Engineering (NCCHE), who wanted to use the GPU to accelerate simulation of real-world events. This was the perfect opportunity to revisit shallow water simulations with the latest CUDA technology. I spent three months at NCCHE as a visiting scholar and together with Martin L. S√¶tra (University of Oslo) and researchers at NCCHE we developed a full simulator. That included going from the typical proof-of-concept implementation (which hydrologists typically consider to be toy models!) to a thoroughly validated implementation. We did not settle for ‚??it looks right,‚?? but instead verified that we were able to reproduce real-world events.

For shallow water simulations, there is always the trade-off between quality of results and computational time. Take a tsunami simulation in the Indian ocean, for example, which covers roughly 73 million square kilometers. In areas far from the shore, you can get away with using very low resolutions, but along the shore, you would like to have 10-meter resolution or higher to be able to resolve small-scale effects that can be very important. Today, people are using huge CPU clusters to perform such simulations, but are not able to capture all the effects. With faster GPU-based systems, you get the opportunity to run at higher resolutions, and thus get higher-quality results, which can make a huge difference during an emergency.



YouTube video on real-time shallow water simulation (http://www.youtube.com/watch?v=FbZBR-FjRwY&feature=player_profilepage)
GTC 2010 presentation on real-time shallow water simulation (http://nvidia.fullviewmedia.com/gtc2010/0921-n-2102.html)
For more info: http://babrodtk.at.ifi.uio.no/



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