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Kenneth L Shepard is an American
electrical engineer Electrical engineering is an engineering discipline concerned with the study, design, and application of equipment, devices, and systems which use electricity, electronics, and electromagnetism. It emerged as an identifiable occupation in the ...
,
nanoscientist Nanotechnology, also shortened to nanotech, is the use of matter on an atomic, molecular, and supramolecular scale for industrial purposes. The earliest, widespread description of nanotechnology referred to the particular technological goal ...
, entrepreneur, and the Lau Family
Professor Professor (commonly abbreviated as Prof.) is an academic rank at universities and other post-secondary education and research institutions in most countries. Literally, ''professor'' derives from Latin as a "person who professes". Professor ...
of Electrical Engineering and Biomedical Engineering at the
Columbia School of Engineering and Applied Science The Fu Foundation School of Engineering and Applied Science (popularly known as SEAS or Columbia Engineering; previously known as Columbia School of Mines) is the engineering and applied science school of Columbia University. It was founded as th ...
(Columbia). Shepard was born in
Bryn Mawr, Pennsylvania Bryn Mawr, pronounced , from Welsh for big hill, is a census-designated place (CDP) located across three townships: Radnor Township and Haverford Township in Delaware County, and Lower Merion Township in Montgomery County, Pennsylvania. I ...
. He received the B. S. E. degree from
Princeton University Princeton University is a private research university in Princeton, New Jersey. Founded in 1746 in Elizabeth as the College of New Jersey, Princeton is the fourth-oldest institution of higher education in the United States and one of the n ...
, Princeton, NJ, in 1987. He was named valedictorian of his graduating class and also received the
Phi Beta Kappa The Phi Beta Kappa Society () is the oldest academic honor society in the United States, and the most prestigious, due in part to its long history and academic selectivity. Phi Beta Kappa aims to promote and advocate excellence in the liberal a ...
prize for the highest academic standing. After graduating from Princeton, he went on to attend Stanford University, Stanford, Ca. where he earned the M. S. and Ph. D. degrees in electrical engineering (with a minor in physics), in 1988 and 1992, respectively. His studies were funded by a fellowship from the Fannie and John Hertz Foundation. His Ph. D. research was also funded by a special "Creativity in Engineering" grant from the National Science Foundation, focused on the physics of nanoscale devices. He was awarded the
Hertz Foundation The Fannie and John Hertz Foundation is an American non-profit organization that awards fellowships to Ph.D. students in the applied physical, biological and engineering sciences. The fellowship provides $250,000 of support over five years. Th ...
doctoral thesis prize in 1992, given each year to the best Ph. D. thesis from among Hertz Fellows. After receiving his Ph.D., Dr. Shepard joined the IBM
Thomas J. Watson Research Center The Thomas J. Watson Research Center is the headquarters for IBM Research. The center comprises three sites, with its main laboratory in Yorktown Heights, New York, U.S., 38 miles (61 km) north of New York City, Albany, New York and with ...
in
Yorktown Heights, NY Yorktown Heights is a census-designated place (CDP) in the town of Yorktown in Westchester County, New York, United States. The population was 1,781 at the 2010 census. History Yorktown Heights is in the town of Yorktown, New York, in northern ...
, where he became a Research Staff Member in the VLSI Design Department. At IBM, he was responsible for the design methodology for IBM's first high-performance CMOS microprocessors for the S/390 mainframe, the G4. This design methodology became the basis for subsequent microprocessor designs at IBM. He received IBM Research Division Awards in 1995 and 1997 for his contributions to the S/390 G4 project team.


Entrepreneurial Activities

In 1997, Dr. Shepard left IBM, joined Columbia University and simultaneously co-founded CadMOS Design Technology, an EDA start-up. CadMOS pioneered PacifIC and CeltIC, the first tools for large-scale noise analysis of digital integrated circuits. The success of PacifIC and CeltIC led Cadence to acquire CadMOS in 2001. In 2012, Dr. Shepard co-founded Ferric Semiconductor, a New York City, private venture-backed company that uses patented thin-film inductors to improve power conversion efficiency in integrated circuits. He currently serves as the technical advisor and Chairman of Ferric. In 2014 Ferric was listed as one of the "Silicon 60" hot startups to watch by EE Times


Contributions to Science and Engineering

Single-molecule electronic methods for biomolecular analysis Dr. Shepard and his lab have done pioneering work in using electronic detection approaches to probe the properties of single-molecules at high bandwidth. This includes techniques employing nanopores, biological ion channels, and exposed-gate nanoscale transistors for detection. Other interfaces between CMOS integrated circuits and biological or biomolecular systems. This includes pioneering work on electrochemical imaging and fluorescence imagers, including techniques for imaging redox-active compounds secreted by bacteria and filter-less approaches to fluorescent imaging using CMOS-integrated Geiger-mode single-photon avalanche photodiodes. Other work has focused on interfacing in vitro lipid bilayers and neural tissue with CMOS integrated circuits. Power electronics Professor Shepard and his students have done extensive work in the area of integrated power electronics, including techniques for the integration of magnetic core power inductors into a CMOS process. Dr. Shepard founded Ferric, Inc. in 2012 to commercialize the approach, which is now being brought to production manufacturing by TSMC, the world's largest semiconductor foundry. Electronic devices exploiting 2D materials He and his graduate students did pioneering work in exploiting newly discovered 2D electronic materials, most notably graphene, in electronic devices. This included seminal papers on field-effect transistor operation in graphene, on using boron nitride as a gate dielectric for graphene, and on using graphene-based transistors for flexible electronics Development of new computer-aided design (CAD) techniques for the design of integrated circuits as well as new design approaches This included the invention of the static noise analysis technique for analyzing signal integrity in integrated circuits and techniques for parasitic extraction. The former work formed the basis for the start-up founded by Dr. Shepard in 1997, CadMOS Design Technology. The latter work formed the basis for techniques currently employed in CAD tools from Cadence and Mentor. He and his students also did pioneering work on the development of resonant clocking including the patent on the technique, which is widely used in industry.


References

{{DEFAULTSORT:Shepard, Kenneth L. 1966 births People from Bryn Mawr, Pennsylvania Columbia School of Engineering and Applied Science faculty Princeton University alumni Stanford University alumni Living people