The Western Institute of Nanoelectronics' administrative headquarters will be located at UCLA Engineering, with scientific and technical responsibility distributed across all four campuses.
UCLA Engineering Professor Kang Wang will serve as the director of the Institute, working closely with co-directors David Awschalom at UCSB, Jeff Bokor at UCB, and Philip Wong at Stanford. All of the nearly 30 eminent researchers taking part in the Institute will explore critically needed innovations in semiconductor technology. The program will be co-managed by the four participating campuses and the semiconductor industry sponsors, with nearly ten researchers from the semiconductor companies working with students and faculty on all of the university campuses. This close collaboration, with research and responsibilities shared by four campuses and six industry sponsors, represents an innovative model for cooperative research.
"With this new institute, we are talking about an unprecedented opportunity to help define a technology that can exploit the idiosyncrasies of the quantum world to provide key improvements over existing technologies," Wang said. "As rapid progress in the miniaturization of semiconductor electronic devices leads toward chip features smaller than 65 nanometers in size, researchers have had to begin exploring new ways to make electronics more efficient. Simply put, today's devices, which are based on complementary metal oxide semiconductor standards, or CMOS, can't get much smaller and still function properly and effectively. That's where spintronics comes in."
The Western Institute of Nanoelectronics has been organized to leverage what are now considered the best interdisciplinary talents in the field of nanoelectronics in the world. The institute's mission is to explore and develop advanced research devices, circuits, and nanosystems with performance beyond conventional devices, which are based on the current industry standard, complementary metal oxide semiconductors.
"We are delighted to join with our colleagues at UCLA, UCB, and Stanford to establish the Western Institute for Nanoelectronics and bring together a remarkable group of scientists and engineers aimed at exploring emerging opportunities in the nascent field of spintronics," said David Awschalom, UCSB professor of physics, electrical and computer engineering, and director of UCSB's Center for Spintronics and Quantum Computation.
"The Institute is an experiment in itself, attempting to create a new research paradigm for faculty and students to interact with industrial colleagues," he said. "This is an exciting opportunity for UCSB to build on its successful track record of interdisciplinary science and use the enabling environment within the California Nanosystems Institute to launch this endeavor."
Evelyn Hu, co-director of the California NanoSystems Institute added, "This is a wonderful way of leveraging the investments that the state and Federal government have made to our campus, joining with industry, and allowing us to contribute to the development of next-generation technologies. It also provides an unparalleled opportunity for our students to understand at first hand the linkage between research and the economy."
Matthew Tirrell, The Richard A. Auhll Professor and UCSB's dean of engineering commented, "This new institute will be a catalyst for bringing together ideas that have been developing on each of the partner campuses in a way that drives integration and synthesis of these ideas into practical applications for the future of the electronics industry."
Spintronics relies on the spin of an electron to carry information, and holds promise in minimizing power consumption for next-generation electronics. Information-processing technology has relied so far on charge-based devices, ranging from vacuum tubes to million transistor microchips. Conventional electronic devices simply move these electric charges around, ignoring the spin that tags along for the ride on each electron. Spintronics aims to put that extra spin action to work effectively corralling electrons into one smooth reactive chain of motion.
The Western Institute of Nanoelectronics is being established with starting grants of $18.2 million: an industrial support total of $14.38 million and a matching $3.84 million UC Discovery Grant from the Industry-University Cooperative Research Program, which seeks to strengthen California's research-and-development economy in partnership with California research-and-development companies. The $18.2 million includes $2.38 million from a Nanoelectronics Research Initiative grant funded by six major semiconductor companies Intel, IBM, Texas Instruments, AMD, Freescale, and MICRON. The amount also includes an additional Intel grant of $2 million. These grants will ensure that long-range research is properly resourced to address the needs for semiconductor technologies beyond complementary metal oxide semiconductors. Funds will be distributed over a four-year period.
Hans Coufal, director of the Nanoelectronics Research Corp., which has been chartered to implement the Nanoelectronics Research Initiative, said, "The participating companies are delighted to closely engage with some of the best scientists in this field and to provide support for their research towards the common objective, to extend Moore's Law for many more years to come." (Gordon Moore, one of Intel's founders, predicted in 1965 that innovative research would allow for a doubling of the number of transistors in a given space every year. In 1975, he adjusted this prediction to a doubling every two years.)
Infrastructure and personnel support from the participating universities is estimated to exceed $200 million. The institute also will receive a separate $10 million equipment grant from Intel.
A portion of the Western Institute of Nanoelectronics will be housed in new laboratories within the brand-new California NanoSystems Institute (CNSI) buildings currently under construction at UCLA and UCSB. Members of the new Institute will also take advantage of the Center for Spintronics and Quantum Computation, a CNSI research organization with coordinated scientific programs spanning universities around the world.
The Western Institute of Nanoelectronics will use new infrastructures and laboratories of all the participating universities, including the Center for Information Technology Research in the Interest of Society of UC Berkeley, and the National Nanotechnology Infrastructure Network both at Stanford University and UCSB.
Intel fellow Paolo Gargini, director of technology strategy and chair of the Nanoelectronics Research Initiative Governing Council said, "The long-standing partnerships that Intel has with California's great institutions of higher learning and research made it logical to team up with them in this new consortium, to establish a West Coast platform for exploratory science feeding into industry research and development. It is critical that we look farther out in such research to lay the groundwork for continuing Moore's Law, which is the foundation for the robust growth of our industry and the key role it plays in the economies of California and our nation. We appreciate the universities dedicating their pre-eminent intellectual capital and facilities to the effort, and the support of UC Discovery in helping to address the funding required to maintain leadership in semiconductor technology and manufacturing."
On behalf of UC Discovery Grants, Susanne L. Huttner, associate vice provost for research and the executive director of the Industry-University Cooperative Research Program at the University of California, said, "The Western Institute for Nanotechnology takes California another big step ahead of the competition in other states. The joint investment we are making with companies doing research and development in California and the Nanoelectronics Research Corp. is positioning the state for world leadership in emerging markets for nanoscale materials and devices."