Microsoft, Intel give US$20M for multi-core research
Microsoft and Intel are donating $20 million to two U.S. universities for parallel-computing research.
Imagine a man you know but whose name you can’t remember approaches you, and your mobile phone uses face-recognition capability to give you his name and information about him before he says hello. This is the kind of application that researchers hope will be developed from US$20 million Microsoft and Intel are giving two U.S. universities for research on parallel computing.
In the paper, they said the current evolution of programming models from single-core to the dual-core and quad-core processors available today from Intel and AMD won’t work for a future where processors could have as many as 16, 32 or hundreds of processors. They set out to find a better way to develop programming models to meet the challenges of multi-core chips.
UC Berkeley’s David Patterson, a professor of computer science and director of the UPCRC, described the problem as one of designing programs to take advantage of parallel computing’s ability to divvy up workloads across different processors. On Tuesday’s conference call, he compared the scenario to dividing the work of writing one story between 16, or even hundreds, of reporters. While the work could potentially be done 16 — or even hundreds of times — faster, “we won’t get to deliver on that performance without balancing the work well,” he said.
Microsoft’s and Intel’s interest in parallel computing is not merely altruistic — both companies already are doing their own research so they can take advantage of the computing power that comes with multi-core technology, and thus gain a competitive advantage in their respective software and processor markets. The agendas of the research centers will align closely with Intel’s Tera-scale Computing Research Program and Microsoft’s Technical Computing Initiative, the companies said.
As for some of the real-world applications of parallel computing, Patterson and Marc Snir, professor of computer science at the University of Illinois, said if researchers can use programming to harness the capabilities of multi-core machines, it will give mobile devices the computing performance that today comes only from supercomputers.
Patterson described the scenario in which a mobile phone might use face-recognition technology to save someone — he used himself as an example — from an embarrassing situation of not knowing a person’s name. “I’d personally be excited to buy a cell phone that has that technology,” because this is a situation he often encounters as a university professor, Patterson said.
Fourteen members from the UC Berkeley faculty, as well as 50 doctoral students and postdoctoral researchers, will staff the UPCRC, while the center at the University of Illinois will be led by Snir and Wen-Mei Hwu, professor of electrical and computer engineering. Twenty additional faculty members and 26 graduate students and researchers also will participate in research at the Illinois center. Both centers will make software available to the technology community for additional development.
While there are only dual-core and quad-core processors available today, Intel plans to release a six-core processor, code-named Dunnington, in the second half of this year, and an eight-core processor, called Nehalem, at some point in the future.