Purdue, IU create new 'tera-scale' supercomputer grid

[Purdue News Servic]

June 11, 2002



PURDUE, IU CREATE NEW 'TERA-SCALE' SUPERCOMPUTER GRID


IBM supercomputers connected via high-speed, optical-fiber network

WEST LAFAYETTE, Ind. ‹ Purdue University and Indiana University have
succeeded in linking their IBM supercomputers in a computational grid via
the universities' high-speed optical network, creating a facility capable of
performing a trillion operations per second.

The process works by breaking complex programs into small segments, which
are then "distributed" across hundreds of separate processors contained
within the two supercomputers. As a result, the two combined computers are
able to process ultra-complex applications that ordinarily would have been
too large for either computer to handle separately.

When fully functional, the supercomputer network ‹ referred to as the
Indiana Virtual Machine Room ‹ will be the first in the nation to tie
together university-owned computers with a combined peak capacity of more
than one teraflop, or more than a trillion operations per second, said James
Bottum, Purdue's vice president for information technology.

The supercomputers are connected via the state's new high-performance,
optical-fiber network, called I-Light, which enables the exchange of large
amounts of information at the speed of light. Purdue and IU tested the
system for the first time last month.

The supercomputer grid will enable researchers to perform innovative and
massive new calculations, including the simulation of "synthetic
environments," applications that help to predict how millions of people
might react to situations ranging from product marketing to natural
disasters. The tera-scale capability also will help scientists run complex
simulations, such as those that model the behavior of materials at the
atomic level or the effects of an earthquake in a metropolitan area, and it
will enable the analysis of genomic data to help identify new treatments for
human disease.

"What we've done here is a proof of concept for a system that pools computer
resources,"  Bottum said. "We are pushing the computational frontiers,
creating a computational grid that spans geographic boundaries."

Combined, IU's teraflop supercomputer and Purdue's IBM supercomputer contain
more than 900 processors, for a combined peak theoretical capacity of more
than 1.4 teraflops, said Michael McRobbie, vice president for information
technology and CIO at Indiana University.

"This computational grid will provide researchers at both institutions the
benefit of larger total processing capacity than either university has
alone," McRobbie said.

The linkage takes advantage of Purdue's large memory configuration and IU's
raw computation power. Having the combined horsepower of two supercomputers
will give the faculty and researchers at both institutions more flexibility
in planning applications and sharing cycles and capacity.

"What we are effectively doing is building, virtually, a large computer out
of multiple pieces," said David Moffett, Purdue's associate vice president
for information technology for research computing services. "We are
leveraging resources and using I-Light to eventually solve problems we
couldn't have tackled before."

Applications that will be explored include environments called "synthetic
economies," in which the behavior of millions of consumers can be predicted
for a given economic scenario. The simulations, which are based on
traditional military war-gaming, enable researchers and business people to
see the consequences of their decisions and actions in real time. Possible
applications include simulations that predict how consumers would respond to
new promotional campaigns; changes in the pricing of particular products or
the introduction of new products; what would happen if companies entered
each others' markets; and how changes in technology, regulatory laws or
consumer demand would affect particular markets.

The software that makes the complex simulations possible was developed by
Alok R. Chaturvedi, an associate professor of management at Purdue's
Krannert School of Management, and Shailendra Mehta, director of
entrepreneurism and small business outreach at the Krannert School.

"What we do in our synthetic environment is create artificial people,"
Chaturvedi said. "They are calibrated based on real data, and they behave
just as people do in the real world.

"Now, what the distributed tera-scale environment will do is allow us to
create artificial agents at very fine granularities. This advanced computing
environment will enable us to create a synthetic environment that contains
more elements, or more virtual people, and will provide a more accurate,
detailed representation of the reality."

The tera-scale capability has enabled the researchers to expand the number
of people in a synthetic environment into the millions, compared to hundreds
for conventional applications. Tera-scale computation also allows synthetic
environments to be changed on the fly to fit new applications, said
Chaturvedi, who has been working on the software since 1993 and has used it
to solve problems for the U.S. Naval Air Command, U.S. Army Recruiting
Command and companies in the personal computer and agribusiness industries.

"Life sciences computing also presents extremely large and complex
computational challenges," said Craig Stewart, director of research and
academic computing at Indiana University. "The linkage of the state's two
largest university-owned supercomputers will make possible analyses by life
scientists affiliated with the Indiana Genomics Initiative that would
otherwise be impossible."

The supercomputer grid has been tested with fastDNAml, a program that infers
evolutionary relationships from DNA sequence data. IU has previously
distributed this program among Indiana, Singapore and Australia ‹ but on a
limited-term basis. The universities' computational grid holds the potential
of being a valuable computational resource that will enhance research in
many scientific disciplines at both campuses and will help build the state's
reputation as a hub of advanced information technology development.

Purdue has recently upgraded its IBM supercomputer through the IBM Shared
University Research Program, which promotes research and strengthens ties
between IBM and universities. Indiana University upgraded its IBM
supercomputer to just more than 1 teraflop last year, making it the largest
university-owned supercomputer in the United States. This upgrade was made
possible in part by a grant from IBM and funding made available for the
Indiana Genomics Initiative by the Lilly Endowment Inc.


Writer: Emil Venere, (765) 494-4709, [EMAIL PROTECTED]



Sources: James Bottum, (765) 496-2266, [EMAIL PROTECTED]

 David Moffett, (765) 496-3886, [EMAIL PROTECTED]

 Michael McRobbie (812) 855-4717, [EMAIL PROTECTED]

 Craig Stewart, (812) 855-4240, [EMAIL PROTECTED]



Related Web sites:

Indiana University Supercomputer Site:
http://sp-www.iu.edu/TeraFLOP.SP.shtml

Indiana Information Technology: http://it.iu.edu

Indiana University: http://www.indiana.edu

Indiana Genomics Initiative: http://www.ingen.iu.edu

Purdue Information Technology: http://www.ecn.purdue.edu/ITresearch/

--
Jeanne Norberg, Director, Purdue News Service
1132 Engineering Administration Bldg., West Lafayette, In  47907
Office  (765) 494-2084:  Fax:  (765)  494-0401
Pager:  (765)  423-8662;  Cell:  (765)  491-1460
Home:  (765)  449-4986
[EMAIL PROTECTED]
http://news.uns.purdue.edu