IBM will release a radical new chip next year that will go into a University of Illinois supercomputer in a quest to build what may become the world's fastest supercomputer.
That university's supercomputer center is a storied place, home to both famous fictional and real supercomputers. The notorious HAL 9000 sentient supercomputer in "2001: A Space Odyssey" was built in Urbana, Illinois, presumably on the University of Illinois Urbana-Champaign campus.
The Power7 chip die.
(Credit: IBM)Though not aspiring to artificial intelligence, the IBM Blue Waters project supercomputer, like the HAL 9000 series, will be able to do massively complex calculations in an instant and, like HAL, be built in Urbana-Champaign. It is being housed in a special building on the Urbana-Champaign campus specifically for the computer that will theoretically be capable of achieving 10 petaflops, about 10 times as fast as the fastest supercomputer today. (A petaflop is 1 quadrillion floating point operations per second, a key indicator of supercomputer performance.)
Part of the National Center for Supercomputing Applications (NCSA) at the University of Illinois, it will be the largest publicly accessible supercomputer in the world when it's turned on sometime in 2011.
Supercomputers are essentially a large collection of microprocessors acting in concert on a complex problem. As processor designs go, the upcoming Blue Waters' IBM Power7 processor--due in the first half of 2010--is a big step for IBM: the processor integrates the features of a chip used in its "Roadrunner" supercomputer, which has often been ranked as the fastest supercomputer in the world. Power7 fuses the flagship Power chip design with key technology from a separate "Cell" processor--the latter was part of IBM's Roadrunner system at the Los Alamos National Laboratory, according to Bradley McCredie, an IBM Fellow in the Systems and Technology Group.
"We took some of that genetic material from the Cell program--ways to do floating point (calculations)--and embedded that right into the Power7 core," McCredie said in an interview with CNET.
But that's not the only thing that makes the Power7 chip special. It integrates eight processing cores in one chip package and each core can execute four tasks--called "threads"--turning an individual chip into a virtual 32-core processor. As a yardstick, Intel's high-end Xeon processors typically have two threads per processing core.
Artist rendering of University of Illinois center that will house IBM's Blue Waters supercomputer
(Credit: University of Illinois)IBM is also using novel memory technology. Widely used "static" RAM memory, used as the on-chip memory in almost all processors today, can add as much as a billion transistors to high-end processors. IBM wanted to avoid these ballooning--and costly--chip counts and elected to use a technology called E-DRAM, keeping the total number of transistors to 1.2 billion. "The equivalent number of transistors if we had done all of the cache in (static RAM) is well in excess of two billion," McCredie said.
And the chip's speed? Between ... Read more
The Cray XT5 supercomputer.
(Credit: Image courtesy of the National Center for Computational Sciences, Oak Ridge National Laboratory)The Cray XT5 supercomputer known as "Jaguar" has finally clawed its way to the title of fastest computer in the world.
Sitting back at No. 2 on the Top500 list of supercomputers for more than a year, Jaguar overtook IBM's "Roadrunner" according to the twice-yearly list that will be unveiled Tuesday at the SC09 Conference in Portland, Ore.
Jaguar beat out the competition by showing it can process 1.75 petaflop/s, or quadrillions of floating point operations per second, according to the Top500 Linpack benchmark. IBM's Roadrunner was pushed back to No. 2 by posting a processing speed of 1.04 petaflop/s, a dip from the 1.105 petaflop/s it reached in a June 2009 test. The slower performance this time around is apparently due to a repartitioning of the system.
Every six months when the Top500 List is released the threshold to grab a place on it gets higher. The slowest supercomputer (No. 500) on November's list posted a speed of 20 teraflop/s, up from the 17.1 teraflop/s of six months ago. In other words, what is the slowest computer this time around would have been No. 336 in June.
Kraken, another Cray XT5 system, jumped up two places from its former No. 5 position by posting a processing performance speed of 832 teraflop/s. IBM's BlueGene/P, from Forschungszentrum Juelich in Germany, came in at No. 4 with 825.5 teraflop/s. At No. 5 is China's Tianhe-1, the highest ranking ever for a Chinese supercomputer.
The top 10, while still dominated by supercomputers housed in the United States, had just one newcomer. That would be Sandia National Laboratories' "Red Sky," a Sun Blade system that posted a Linpack performance of 423 teraflop/s.
Just as the last time the list was released, the Top500 list is made up mostly of Hewlett-Packard and IBM computers. HP accounted for 210 of this year's 500, and IBM 185. In terms of processors in use, Intel still enjoys the lion's share, with 80 percent. The most popular operating system is Linux, with 90 percent of the Top500.
Here's the Top 10:
Jaguar, Cray, Oak Ridge National Laboratory (1.75 petaflop/s)
Roadrunner, IBM, Los Alamos National Laboratory (1.04 petaflop/s)
Kraken XT5, Cray, National Institute for Computational Sciences (832 teraflop/s)
JUGENE, IBM, Forschungszentrum Juelich (825.5 teraflop/s)
Tianhe-1, NUDT, National SuperComputer Center in Tianjin (563.1 teraflop/s)
Pleiades, SGI, NASA Ames Research Center (544.3 teraflop/s)
BlueGeneL, IBM, Lawrence Livermore National Laboratory (478.2 teraflop/s)
BlueGene/P, IBM, Argonne National Laboratory (458.61 teraflop/s)
Ranger, Sun, Texas Advanced Computing Center (433.20 teraflop/s)
Red Sky, Sun, Sandia National Laboratories (423.9 teraflop/s)
For the full Top500 List head to the official site.
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