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TeraGrid'10 Attendees Peer into Blue Waters

Blue Waters, expected to be one of the most powerful supercomputers in the world for open scientific research when it comes online next year, is being counted on to help solve some of the world’s most vexing scientific and social challenges, from figuring out how the first galaxies formed to simulating the spread of disease across large populations to better prepare us for such medical emergencies.

At this year’s TeraGrid conference, Bob Wilhelmson, recently retired chief science officer of the National Center for Supercomputing Applications (NCSA) and former applications lead for the Blue Waters project, delivered a keynote address in which he discussed the Blue Waters architecture and shared several planned projects for the new supercomputer, a joint effort between NCSA, the University of Illinois, IBM, the Great Lakes Consortium for Petascale Computation, and the National Science Foundation (NSF).

Eighty percent of the Blue Waters resource will be dedicated to NSF awardees through the Petascale Computing Resources Allocation Program or PRAC, Wilhelmson told TG’10 attendees in Pittsburgh, Pennsylvania. Each PRAC award identifies a scientific challenge requiring advanced modeling and simulation capabilities that can only be provided by a system that provides sustained performance approaching one petaflop. Awardees receive a $40,000 travel grant to learn about the new supercomputer system and prepare their algorithms to scale to hundreds of thousands of processors/cores. To date, 18 awards have been made and 55 proposals are under review. Approximately 10 new awards are expected.

Some of the first areas of research selected for Blue Waters include:

  • The simulation of stellar weather, including high-resolution turbulence simulations.
  • The study of chromatophores, or cells which are largely responsible for generating skin and eye color in cold-blooded animals.
  • Actions and interaction of quarks, elementary particles and a fundamental constituent of matter.
  • The simulation of disease spread and pandemics in very large social networks.
  • The formation of the first galaxies.
  • A "bio evolution" project that will focus on how bacteria mutate and how to clean up environmental contamination by developing multiscale models of bacteria populations.
  • Simulating supercell storms and tornadoes. 

Blue Waters is being built from the most advanced computing technologies under development at IBM, including the multicore ‘POWER7’ microprocessor. The system will have more than one petabyte of memory, more than 10 petabytes of disk storage, and eventually up to 500 petabytes of archival storage. It will take up approximately 5,000 square feet of floor space in a new state-of-the-art computer facility at the University of Illinois.

“The concept here is to develop a well-balanced machine both in terms of compute power, memory size, disk/archive storage, and IO capability,” Wilhelmson told TG’10 attendees. “It is one of the things that many organizations struggle with.”

While the numbers behind the data-intensive Blue Waters supercomputer are impressive — its 300,000-plus cores will help the system achieve peak performance of approximately 10 petaflops, or 10 quadrillion calculations per second, and deliver a sustained performance of at least one petaflop on a range of real-world science and engineering applications — Wilhelmson said it is the science and scientific advances that are really important.

“Machines are just technology,” he said. “They live for five years and then they’re gone, replaced by something else. What does not die is the application, because it is developed and used to gain a deeper understanding of the world around us.”

—Jan Zverina is the TG’10 Communications Co-Chair

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