Holistic Circuits: or How I Learned to Stop Worrying and Love the End of Moores Law
Today's transistors have evolved rapidly from their ancestors to be faster, smaller, and "weaker," while the die-area of the typical chips housing them has been constantly increasing. The cut-off wavelengths of integrated silicon transistors have now substantially exceeded the die sizes of the chips being fabricated with them. Combined with the ability to integrate billions of transistors on the same die, this size-wavelength cross-over has produced a unique opportunity for completely new architectures and topologies, which were previously impractical due the traditional partitioning of various blocks in conventional design. These holistic circuits combine digital and analog circuits, electromagnetics, photonics, device physics, and system architecture in one place resulting in novel architectures enabling new applications and enhancing the performance of the existing ones by orders of magnitude. These circuits leverage ideas of parallelism, reconfigurablility, concurrency, and stacking in more regular and periodic on-chip structures that are more conducive to modern fabrication processes and novel design and optimization approaches. In this talk, we discuss some of these opportunities and their associated challenges in some detail through a few examples of how they can be used in practice.
Ali Hajimiri received his B.S. degree in Electronics Engineering from the Sharif University of Technology, and M.S. and Ph.D. degrees in electrical engineering from the Stanford University in 1996 and 1998, respectively.
He has been with Philips Semiconductors, where he worked on a BiCMOS chipset for GSM and cellular units from 1993 to 1994. In 1995, he was with Sun Microsystems working on the UltraSPARC microprocessor's cache RAM design methodology. During the summer of 1997, he was with Lucent Technologies (Bell Labs), Murray Hill, NJ, where he investigated low-phase-noise integrated oscillators. In 1998, he joined the Faculty of the California Institute of Technology, Pasadena, where he is Thomas G. Myers Professor of Electrical Engineering and the director of Microelectronics Laboratory. His research interests are high-speed and RF integrated circuits for applications in sensors, biomedical devices, and communication systems.
Dr. Hajimiri is the author of The Design of Low Noise Oscillators (Boston, MA: Springer, 1999 and has authored and coauthored more than one hundred refereed journal and conference technical articles. He holds more than fifty U.S. and European patents. He has served on the Technical Program Committee of the International Solid-State Circuits Conference (ISSCC), as an Associate Editor of the IEEE Journal of Solid-State Circuits (JSSC), as an Associate Editor of IEEE Transactions on Circuits and Systems (TCAS): Part-II, a member of the Technical Program Committees of the International Conference on Computer Aided Design (ICCAD), Guest Editor of the IEEE Transactions on Microwave Theory and Techniques, and Guest Editorial Board of Transactions of Institute of Electronics, Information and Communication Engineers of Japan (IEICE).
Dr. Hajimiri was selected to the TR35 top innovator's list (formerly TR100) in 2004. He is a Fellow of IEEE and has served as a Distinguished Lecturer of the IEEE Solid-State and Microwave Societies. He is the recipient of Caltech's Graduate Students Council Teaching and Mentoring award as well as the Associated Students of Caltech Undergraduate Excellence in Teaching Award. He was the Gold medal winner of the National Physics Competition and the Bronze Medal winner of the 21st International Physics Olympiad, Groningen, Netherlands. He was a co-recipient of the IEEE Journal of Solid-State circuits Best Paper Award of 2004, the International Solid-State Circuits Conference (ISSCC) Jack Kilby Outstanding Paper Award, a two-time co-recipient of CICC best paper award, and a three-time winner of the IBM faculty partnership award as well as National Science Foundation CAREER award and Okawa Foundation award. In 2002, he co-founded Axiom Microdevices Inc., whose fully-integrated CMOS PA has shipped more than one hundred and fifty million units, and was acquired by Skyworks Inc. in 2009.