New $28M Center Will Develop Computers of 2025
January 17, 2013 – Designing the computers of 2025 is the focus of a new $28 million, five-year research center led by the University of Michigan.
The Center for Future Architectures Research (C-FAR) opens today, and involves 14 other major research institutions. C-FAR aims to harness the power and boost the reliability of the tiniest transistors that will emerge over the next decade. Transistors are the fundamental building blocks of modern electronics, and more than a billion of them compose each integrated circuit in today's cell phones and personal computers. C-FAR will support the design of the next generation of computers that will enable applications such as computer vision, speech recognition, enhanced graphics, and "big data" analysis.
C-FAR is one of six new centers announced today by the Semiconductor Research Corporation, a non-profit collaboration between government and industry with support from the Defense Advanced Research Projects Agency and major firms. In addition to leadership of C-FAR, U-M researchers are involved in three of the other five new Semiconductor Technology Advanced Research network (STARnet) centers.
Together, the STARnet centers are charged with guiding the field through the approaching sunset of Moore's law, named for the Intel co-founder who in 1965 identified a trend that has fueled the semiconductor industry for the past 50 years. The law observes that the industry is able to shrink transistors enough to double the number that fit on an integrated circuit, or chip, every 18 months. With this increased density comes a doubling of computing power, which has transformed the room-sized computers of the 1950's to the significantly more powerful smartphones of today. But the field is reaching the limit to miniaturization.
"It's a challenging time as we approach the end of Moore’s law – not tomorrow, but soon" said Todd Austin, professor of electrical engineering and computer science and C-FAR director. "The dimensions of the transistors of today are in the tens of atoms. We can still make them smaller, but not without challenges that threaten the progress of the computing industry."
In addition to Austin, other U-M co-investigators in C-FAR are Scott Mahlke, professor; Valeria Bertacco, associate professor; and Kevin Fu, associate professor, all in the Department of Electrical Engineering and Computer Science.
Researchers predict about another decade of squeezing silicon, and that will bring challenges along with opportunities. As nanoscale transistors shrink, they become less reliable. And in some cases, they offer more computational power than other parts of the system are capable of using.
"Industry is adding more and more cores. Last year, your cell phone had two, next year it will have four. The problem is your cell phone doesn't do much more than it did before because harnessing all those cores is a challenge," Bertacco said.
The researchers at C-FAR will work to overcome these challenges on three fronts. They will design specialized chips tailored for different applications. They'll rethink how to build computers so they're capable of analyzing massive data sets more efficiently, which will be a key application in the next decade. And they'll explore how to integrate tomorrow's technologies into conventional silicon processing techniques to ease the transition for industry. These advanced technologies include three-dimensional stacked chips and phase-change memory, which uses heat to store information in the molecules of a glass-like material.
"If we can build better systems with these smaller and less reliable transistors, we have an opportunity to make the next generation of faster, more energy-efficient computers. Imagine your tablet of tomorrow running high-end applications, like real-time medical imaging or computer vision, without needing a recharge for days," Bertacco said.
While the center is headquartered at U-M, it includes researchers from top universities across the nation.
"The center provides a unique environment to collaborate closely with other researchers and our sponsors to create rule-breaking technologies that are both effective and relevant," Austin said.
"If we can't continue to improve the speed and energy efficiency of tomorrow's computers, the computing industry will stagnate," Bertacco concluded. "It's important that we find ways to move the industry forward, even in the face of all these great challenges."
Other universities in C-FAR are Columbia University; Duke University; Georgia Institute of Technology; Harvard University; Massachusetts Institute of Technology; Northeastern University; Princeton University; Stanford University; the University of California, Berkeley; the University of California, Los Angeles; the University of California, San Diego; the University of Illinois at Urbana-Champaign; the University of Virginia; and the University of Washington, Seattle.
The other STARnet centers that U-M researchers are involved in are:
Story by: Nicole Casal Moore (734-647-7087)
Source: U-M Press Release
Semiconductor Research Corporation press release: Semiconductor Research Corporation, DARPA Unveil $194 Million University Research Center Network Focused on Next-Generation Microelectronics
C-FAR Website launches with full list of center investigators.
University of Michigan investigators at the Center for Future Architectures Research: