Titan supercomputer debuts for open scientific research

The system is powered by Nvidia GPUs and thought to be one of the two fastest supercomputers in the world. It's capable of making 20,000 trillion calculations each second.
The Oak Ridge Leadership Computing Facility is home to Titan, the world's most powerful supercomputer for open science with a theoretical peak performance exceeding 20 petaflops (quadrillion calculations per second). That kind of computational capability, helped by Nvidia GPUs, is on par with each of the world's 7 billion people being able to carry out 3 million calculations per second.
(Credit: Oak Ridge National Laboratory)
Forecasting for weather like this week's "Frankenstorm" may become a lot more accurate with the help of the Department of Energy's Titan supercomputer, a system that launched this month for open research development.
The computer, an update to the Jaguar system, is operated in Tennessee by Oak Ridge National Laboratory, part of the DOE's network of research labs. Researchers from academia, government labs, and various industries will be able to use Titan -- believed to be one of the two most powerful machines in the world -- to research things such as climate change and alternative fuels.

"Why care about these big computers? It's really because society's got big problems," Steve Scott, chief technology officer of Nvidia's GPU accelerated computing business, said in a recent interview. "There are healthcare issues, lots of diseases across the board, an aging population. Energy is a huge problem facing the world and our country. ... Increasingly computers are used to solve these problems."
As part of this month's launch of Titan, the DOE has awarded 4.7 billion supercomputing hours at Oak Ridge and another facility to 61 science and engineering projects with "high potential for accelerating discovery and innovation" through its Innovative and Novel Computational Impact on Theory and Experiment (INCITE) program.
While the areas of research vary, there are six main areas targeted for Titan, according to Nvidia's Scott:
• Material science code. This is basically looking at material at the atom level, to understand its properties. It also involves figuring out how to construct new materials to have superior properties of strength, weight, and other characteristics.
• Climate change. Researchers want to answer questions about what's going on, how to change it, how to adapt to it, etc.
• Biofuels. This involves looking at certain plants -- like switchgrass -- and converting them into ethanol using an enzymatic process.
• Nuclear energy. The technology can be used to stimulate neutron flux in fusion and fission. It includes looking at a new form of fusion energy that would be safer and cleaner, as well as new fuels that would burn longer and cleaner.
• Combustion. Titan can allow the simulation of combustion for researchers trying to optimize the fuel, process, and engine design to get a cleaner burning fuel.
• Astrophysics
"All of these areas have tremendous real world societal benefits," Scott said. "And they need high performance computing to drive them forward."
None of the research would be possible without the massive computing abilities provided by Titan. The system is believed to be more powerful than the world's current top supercomputers from Japan and China, and it rivals theTop500's No. 1 machine from June, the DOE's Sequoia machine at Lawrence Livermore National Laboratory.
Titan is one of the new types of systems that combine discrete graphics chips, or GPUs, commonly used for videogames, along with standard microprocessors. In this case, Nvidia is providing the GPUs while the CPUs come from Advanced Micro Devices. Graphics chips are used to accelerate the number-crunching functions of supercomputers by allowing many tasks to be completed at once, and they require less power than CPUs alone.
Titan is 10-times more powerful and five-times more energy efficient than Oak Ridge's last system, dubbed Jaguar. Oak Ridge says the use of GPUs combined with CPUs allows Titan to take up the same physical space as Jaguar while using only "marginally" more electricity (9 megawatts for Titan versus 7 megawatts for Jaguar).
If Oak Ridge upgraded Jaguar by simply expanding the CPUs, the system would be more than four-times its current size and would consume more than 30 megawatts of power.


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