Intel's 60-core chip ships; elites like Hawking get it first
Intel's first chip to integrate 60 processor cores is for high-performance computing applications -- with a high-end price to match.
Brooke CrothersFormer CNET contributor
Brooke Crothers writes about mobile computer systems, including laptops, tablets, smartphones: how they define the computing experience and the hardware that makes them tick. He has served as an editor at large at CNET News and a contributing reporter to The New York Times' Bits and Technology sections. His interest in things small began when living in Tokyo in a very small apartment for a very long time.
Intel's first 60-core chip is here, but only elite institutions like Cambridge University will get early access.
The chip, generally called Phi, isn't your typical Intel processor. It's less like a central processing unit (CPU) -- which is the chipmaker's bread and butter -- and more akin to a graphics processing unit (GPU) that works in conjunction with the CPU.
But the company still needs the technology to compete with Nvidia in the supercomputing market because specialized GPU-like processor cores can handle certain supercomputing tasks more efficiently, reducing the prodigious power requirement for supercomputers as well as increasing performance.
Expected to be commercially available early next year, the Xeon Phi coprocessor 3100 family will offer more than 1,000 gigaflops (1 teraflops) double-precision performance -- a rating for chips that do scientific calculations.
By comparison, Intel's consumer processors don't offer anything close to that level of performance when doing specialized computing tasks.
Professor Stephen Hawking and the Cosmos Lab at the University of Cambridge have been given early access to the technology for use in their SGI supercomputer, Intel said.
"With our powerful and flexible SGI UV2000, we can continue to focus on discovery, leading worldwide efforts to advance the understanding of our universe," Hawking said in a statement.
Stateside, Intel customers such as Texas Advanced Computing Center are getting early customized products.
The first commercial versions of the coprocessor, which ship on a PCIe circuit board, are expected to be available January 28 with a recommended customer price of $2,649.
The 3100 product family will be available during the first half of 2013 with a recommended customer price below $2,000.