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DAILY NEWS AND INFORMATION
FOR THE GLOBAL GRID COMMUNITY /
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Special Features:
APPLE STORMS MARKET WITH
XGrid
Apple previewed XGrid, a computational clustering technology from Apple's
Advanced Computation Group (ACG). XGrid helps scientists and others working in
compute intensive environments to fully utilize all IT resources, including
desktops and servers, by creating a Grid-enabled "virtual" IT environment that
takes advantage of unused computing capacity to run batch and workload
processing. Available as a free beta download today from www.apple.com, XGrid brings Apple's legendary
ease-of-use to computational clustering by
providing the easiest way to run compute intensive applications, such as the
popular gene-sequencing application BLAST, on multiple Macs using Apple's
Rendezvous networking technology.
"XGrid makes it easy to turn your Mac cluster into a supercomputer," said
Philip Schiller, Apple's senior vice president of Worldwide Product Marketing.
"The new XGrid software agents use Apple's breakthrough Rendezvous networking
technology to automatically discover, connect and manage tasks across
available systems in a Mac cluster."
With XGrid running on Xserve G5 servers in a 42U industry-standard rack, up
to
84 Power PC G5 processors can be clustered to create a supercomputer with 1.5
teraflops of processing power dedicated to solving compute intensive problems.
Management is simple with XGrid. The XGrid Console has an intuitive Aqua
interface that makes it easy to execute UNIX commands, run shell scripts or
feed applications across a cluster. XGrid ships with built-in support for the
popular gene-sequencing application BLAST and comes with a software developer
kit that makes porting custom compute intensive applications to XGrid
easy.
Customers from NASA, Genentech, Simon Fraser University, Reed College and
Virginia Tech have been testing the new technology on clusters of Mac
desktops, portables and servers.
Mathematical researchers led by Dr. Peter Borwein at Simon Fraser
University
in Burnaby, British Columbia, have used XGrid in their exploration of the
difficult problem of finding low autocorrelation binary sequences. With the
help of XGrid, the group has harnessed the computing power of machines in
student labs at the university to create a system capable of processing data
at more than 30 GHz.
"The XGrid BLAST application enables bioinformatics researchers to perform
distributed BLAST searches on a cluster running the XGrid software," said
Richard H. Scheller, Ph.D., senior vice president of Research at Genentech.
"We tested XGrid BLAST by querying DNA sequence files for matches against
multi-gigabyte genomic databases on a cluster of four dual-processor
Xserves."
XGrid was tested at NASA Langley Research Center in Hampton, Va. The
FORTRAN-based jet noise prediction code "Jet3D" was run across a distributed
cluster of Power Mac G5, Power Mac G4 and Xserve G4 systems. A total of eight
G4 and two G5 processors were run, resulting in performance of approximately
32 gigaflops.
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