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DAILY NEWS AND INFORMATION
FOR THE GLOBAL GRID COMMUNITY /
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Special Features:
SGI CTO TO DISCUSS NEXT-GEN.
ARCHITECTURES IN HPCC KEYNOTE
Silicon Graphics announced that Eng Lim Goh, SGI's chief technology
officer,
asserts that existing high-performance computing architectures may be starting
to limit the pace of science, research and development. In his opening keynote
presentation March 30 through April 1at the 18th annual National High-
Performance Computing and Communications Conference (HPCC)in Newport, R.I.,
Goh will discuss new concepts in computing architectures designed to offer the
scientific and industrial community a way to accelerate innovation and
discovery. This industry event will focus on supercomputing, homeland and
cyber security, Internet security, Grid computing, electronic banking,
wireless computing, mass storage and HPC applications.
Goh will keynote this prestigious event for the second year in a row. His
presentation, "Factors Influencing the Design of Next-Generation High End
Computing and Visualization Architectures: facilitating scientific discovery
to planned serendipity," will take place on Tuesday, March 30 at 9 a.m.
"Dr. Goh is a noted industry visionary and the CTO of a company that has
delivered a series of outstanding innovations to the high performance
computing community," said John Miguel, HPCC program chair. "He brings
extensive background and vast understanding of supercomputing technology and
architectures, coupled with a compelling vision of the high performance
computing industry's direction."
"Today's methods of scientific and engineering investigation range from
theoretical, experimental to computational science. In computational science,
the classical approach has been modeling and simulation. The concern here is
the growing gap between actual applications and peak compute performances,"
said Goh. "We believe one major solution to this growing performance gap is
the new multi-paradigm computing architecture. It tightly integrates, what
were previously, disparate computing architectures into a highly scalable
single system and, thus, allows them to cooperate on the same data residing in
scalable globally-addressable memory. Enabling scientists to focus on science,
not computer science."
"Additionally, with globally-addressable memory growing to Terascale sizes,
a
plethora of new, huge-memory applications that profoundly improve scientific
and engineering productivity will come on line. From these, may emerge a new
branch of computational science called data intensive methods. It includes the
traditional method of query, to the more abstract methods of inference and
even interactive data exploration. The availability of such a powerful range
of interactive methods, for operation on Terascale data sets, all residing in
monolithic globally-addressable memory, is a novel combination that will not
only facilitate intended discoveries but may also give rise to a new
complement which I will call 'planned serendipity.' The latter will be of
growing significance in intelligence, science and engineering," said Goh. "And
as the amount of data generated by faster and more productive systems grows,
visualization will increasingly become an essential tool. The recent advances
in display and related technologies, could pave the way for revolutionary new
ways of visual, interactive and collaborative communications."
The theme for this year's HPCC conference, "High-End Computing in the
Wireless
World: The Grid and Beyond," will highlight industry leaders from the
Department of Homeland Security, Department of Defense, DARPA, Los Alamos
National Labs, Argonne National Labs, the U.S. Air Force, U.S. Navy and U.S.
Army. Each year, the Council Conference Committee delivers an agenda full of
prominent speakers who provide a wealth of information in a unique forum
designed for exchanging information, discussing technical issues and
transferring technology within the HPC community.
Goh joined SGI 14 years ago and became chief technology officer in 2001.
His
tenure includes work in computer graphics algorithms and HPC architectures. A
proponent of designing next-generation computer systems specifically for
applications performance, Goh advocates computational density and a balanced
multi-paradigm approach, across a globally-addressable memory, to
architectural design that maps to the profile of customer applications. A
Shell Cambridge University Scholar, he completed his Ph.D. research and
dissertation on parallel architectures and computer graphics. He also holds a
first-class honors degree in mechanical engineering from Birmingham
University, U.K.
About SGI
SGI, also known as Silicon Graphics Inc, is the world's leader in high-
performance computing, visualization and storage. SGI's vision is to provide
technology that enables the most significant scientific and creative
breakthroughs of the 21st century. Whether it's sharing images to aid in brain
surgery, finding oil more efficiently, studying global climate or enabling the
transition from analog to digital broadcasting, SGI is dedicated to addressing
the next class of challenges for scientific, engineering and creative users.
With offices worldwide, the company is headquartered in Mountain View, Calif.,
and can be found on the Web at www.sgi.com.
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