| ARMONK,
NY -- (MARKET WIRE) -- 06/08/2005 -- IBM today announced
that The Max Planck Society will use a cutting-edge
IBM supercomputing system to double its computing
power, allowing research and experiments which before
were not possible. The system is based on 86 units
of IBM's newly announced IBM eServer™ p5-575 systems
and will bring the Max Planck Society's supercomputing
power to over 10 Teraflops, doubling their existing
installed pSeries compute power. The new supercomputer
will help researchers in the Garching Computing Center
advance research in the fields of nanotechnology
and environmental protection as well as other innovative
research projects envisioned by the Society.
The new supercomputing system will be used in different
research areas of the Max Planck Institutes. The
major part of the installation is dedicated to extremely
demanding simulations in materials science. At the
Fritz Haber Institute in Berlin, Germany, for example,
scientists are simulating heterogeneous catalysis
for developing more efficient and environmentally
friendly catalysts. For future nano-technologies
a study of crystal growth will simulate modern materials.
At the Max Planck Institute for Metals Research in
Stuttgart, Germany, simulations of biomolecules-nanotube-systems
will be run, to model and design bio and biomedical
sensors for future applications.
"We have chosen the eServer p5-575 platform running
the AIX® operating system because of its extraordinary
performance as far as extremely demanding storage
applications are concerned," says Hermann Lederer,
head of the applications group at Garching Computing
Center. "With this platform, we are able to significantly
decrease the time it takes to complete a project,
allowing us compete against some of the largest organizations
in the research community."
The
installation of 86 p5-575 servers running a UNIX® operating system extends the Society's
existing supercomputing platform of 32 IBM eServer
pSeries™ systems. The additional p5-575 compute resources,
consisting of single core 1.9 GHz 8-way nodes, have
a peak performance of five Teraflops. When combined
together with older pSeries systems, the Max Planck
Society supercomputer will double to an aggregated
value of 10.2 Teraflops. The solution is one of the
first p5-575 installations worldwide.
"The space required for high performance computers
continues to shrink," says Nurcan Rasig, IBM Director
Deep Computing Central Region. "This is best demonstrated
by Max Planck Society's nanotechnology research being
powered by IBM POWER5™ processors, which continue
to push the envelope of Moore's Law by increasing
compute power per chip. With this solution the Compute
Center Garching will become pioneer for future HPC
installations."
The new p5-575 is an ultra-thin cluster building
block that delivers "off the
shelf" supercomputing technology to customers in a small form factor. The new
systems use ultra-dense packaging technology innovations to provide high-speed
connections between eight POWER5 processors. The new system allows up to 128
eight-processor p5-575 cluster nodes to create a single high-performance system
with supercomputing performance capabilities that can power work in areas such
as genome research, automotive crash-testing, petroleum exploration, and oceanographic,
atmospheric and energy studies. In smaller configurations, the 8-way p5-575
can be deployed as a highly modular and cost-effective platform for memory-intensive
Business Intelligence (BI) and Data Warehousing (DW) applications.
About IBM
IBM is the world's largest information technology
company, with 80 years of leadership in helping businesses
innovate. Drawing on resources from across IBM and
key IBM Business Partners, IBM offers a wide range
of services, solutions and technologies that enable
customers, large and small, to take full advantage
of the new era of e-business. For more information
about IBM, visit http://www.ibm.com .
Contact: Kevin Acocella IBM Corporation 646-598-5551
Email: Email
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SOURCE: IBM
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