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presenters showcasing research codes that will run computational science on the <strong>GPU</strong> at scale. Through these selected presentations, we will investigate the progress and anticipated results of <strong>GPU</strong>-acceleration of these significant codes. In this session, we will also explain how research scientists interested in tapping into the immense capabilities of Titan can do so, through programs such as the Incite program sponsored by the US Department of Energy. The presenters include: ����������������������������������������������������������� National Laboratories) “Direct Numerical Simulation of Turbulence-Chemistry Interactions: Fundamental Insights Towards Predictive Models” ��������������������������������������������������� “S3D Direct Numerical Simulation - Preparations for the 10-100PF Era” ����������������������������������������������������������� Princeton Plasma Physics Laboratory (PPPL), Princeton) “Fusion Energy Sciences & Computing at the Extreme Scale” ��������������������������������������������� ������������������������������������������������� “Computer Simulation of Lignocellulosic Biomass” ���������������������������������������������������������������� Science, Princeton) “Toward Global Seismic Imaging based on Spectral-Element and Adjoint Methods” Speaker(s): Jack Wells, Ph.D. (Director of Science, Oak Ridge Leadership Computing Facility, Oak Ridge National Laboratory) Topic(s): Supercomputing (Intermediate) TUESDAY, MAY 15, 14:00 (25 MINUTES) ROOM B S0609 Computational Graphics: An Overview of Graphics Research at NVIDIA The future of computer graphics presents many challenges. The worlds we render will be vastly more complex in geometry and artistic “texture”. Real-time rendering will use global illumination to achieve a far richer appearance, robustly. And content creation, which has grown to be the dominant cost of producing both games and film, must get simpler and less expensive. The NVIDIA Graphics Research group addresses these challenges with a focus on “Computational Graphics”: using general-purpose computation to enhance and extend the traditional pipelines and capabilities of real-time rendering. In this talk David Luebke, who leads graphics research, will give an overview of recent and ongoing work in computational graphics at NVIDIA Research. Speaker(s): David Luebke (Senior Director of Graphics Research, NVIDIA) Topic(s): Computer Graphics (Intermediate) TUESDAY, MAY 15, 14:00 (50 MINUTES) ROOM M S0632 Learn how Adobe After Effects CS6 takes advantage of NVIDIA Optix technology for 3D Ray Tracing (Presented by Adobe) Adobe After Effects CS6 unveils an amazing new 3D ray-traced rendering engine based on NVIDIA Optix technology with <strong>GPU</strong> acceleration of up to 50x faster than a CPU alone. This enables simple and quick designs of realistic geometric text and shapes in 3D space. Motion graphics artists can now create more physically accurate scenes with beautiful results such as reflections, transparency, soft shadows, and depth-of-field blur directly in After Effects. <strong>GPU</strong>-accelerated ray tracing drastically improves the workflow by enabling motion graphics artists to develop these 3D effects entirely within After Effects. Speaker(s): Steve Forde (Senior Product Manager, After Effects) Topic(s): Digital Content Creation (Beginner) TUESDAY, MAY 15, 14:00 (50 MINUTES) ROOM NVIDIA NSIGHT LAB S0801 CUDA Debugger Training on Windows Nsight offers a variety of powerful CUDA debugging feature set that enables developers to quickly spot bugs. From the memory checker to advanced breakpoints and variable warp watch panel, a developer can quickly isolate access memory errors, filter out the thousands of threads to a specific thread and quickly spot abnormal variable value ranges. Through a set of comprehensive exercises, the attendee will be able to utilize these features to become fully proficient at developing CUDA code. Speaker(s): NVIDIA Developer Tools Team Topic(s): Development Tools & Libraries (Beginner) TUESDAY, MAY 15, 14:30 (25 MINUTES) ROOM J3 S0046 Application of the <strong>GPU</strong> to a Two-Part Computational Electromagnetic Algorithm The shooting and bouncing ray (SBR) method is one way to simulate electromagnetic field radiation. Like all methods, there are certain problems where it does not yield accurate results. In this presentation, we will explain one such case that consists of an antenna resonating between two metal plates. We will discuss how we used the graphics processing unit (<strong>GPU</strong>) to separate the problem into two parts. Each part is simulated individually with SBR producing an improved result. Such a <strong>GPU</strong>-accelerated, two-part approach can be applied to other more general hybrid simulations. Speaker(s): Eric Dunn (Electromagnetic Research Scientist, SAIC) Topic(s): Computational Physics, Algorithms & Numerical Techniques, Ray Tracing (Beginner) TUESDAY, MAY 15, 14:30 (25 MINUTES) ROOM A1 S0351 Strong Scaling for Molecular Dynamics Applications In this session we will talk about how to improve strong scaling for molecular dynamics applications. Using the NAMD molecular dynamics code as our primary case study, we will discuss the types of issues that can impede scaling, how to use already available and custom tools to discover such issues, and how to build a model to help analyze and predict scaling performance. Although this session is primarily focused on molecular dynamics applications, most of the lessons can be applied equally well to many other areas and applications. Speaker(s): Sarah Tariq (Software Engineer, NVIDIA) Topic(s): Molecular Dynamics, Cluster Management, Life Sciences (Intermediate) TUESDAY, MAY 15, 14:30 (25 MINUTES) ROOM A8 S0379 <strong>GPU</strong>-based High-Performance Simulations for Spintronics The joint utilization of the electron’s charge and spin in “spintronics” represents a promising technology for data processing and storage in nanostructures. The complex quantum effects like the spin-Hall effect in these devices require demanding numerical simulations providing a convenient link between idealized analytical models to often very complex results 35 CONFERENCE GUIDE TUESDAY
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What you need to know. Now. Dr. Dob
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SPEAKERS AND PANELISTS Arutyun Avet
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SPEAKERS AND PANELISTS with emphasi
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SPEAKERS AND PANELISTS Rainald Lohn
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SPEAKERS AND PANELISTS Naoya Maruya
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SPEAKERS AND PANELISTS Taro Okamoto
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SPONSORS AND EXHIBITORS PLATINUM SP
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SPONSORS AND EXHIBITORS GOLD SPONSO
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