The COVID pandemic, in dramatic form, made evident the critical role that microelectronics plays in modern human society. Supply disruptions brought us the realization that semiconductor chips are like oxygen, only when we don’t have them we come to appreciate how much we depend on them for nearly every aspect of our lives. Indeed, countries around the world have all of a sudden recognized the strategic nature of semiconductor microelectronics and policies to foster on-shore production of the most advanced chips and to strengthen the robustness of supply chains are being enacted around the globe. Beyond its strategic importance, semiconductor microelectronics is a domain that wonderfully illustrates what human ingenuity can accomplish. For over 50 years now, the power of microelectronics has been increasing exponentially. While the popular press has been warning us of the impending “End of Moore’s Law”, technologists continue to push the technology forward. At any one time, they see 10 more years of continuous progress ahead. This talk will review the long march of microelectronics to this date and the opportunities and challenges going forward. In its late middle age, the field remains youthful and pregnant with possibilities.
Jesús A. del Alamo is the Donner Professor and Professor of Electrical Engineering at MIT. He obtained a Telecommunications Engineer degree from Polytechnic University of Madrid (Spain) and MS and PhD degrees in Electrical Engineering from Stanford University. In 1985 he joined Nippon Telegraph and Telephone LSI Laboratories in Japan and since 1988 he has been with the Department of Electrical Engineering and Computer Science of Massachusetts Institute of Technology. From 2013 until 2019, he served as Director of the Microsystems Technology Laboratories at MIT. His current research interests are focused on nanoelectronics based on compound semiconductors and ultra-wide bandgap semiconductors and novel ionic and ferroelectric devices for artificial intelligence accelerators.
Prof. del Alamo was an NSF Presidential Young Investigator. He is a member of the Royal Spanish Academy of Engineering and Fellow of the Institute of Electrical and Electronics Engineers, the American Physical Society and the Materials Research Society. He is the recipient of the Intel Outstanding Researcher Award in Emerging Research Devices, the Semiconductor Research Corporation Technical Excellence Award, the IEEE Electron Devices Society Education Award, the University Researcher Award by Semiconductor Industry Association and Semiconductor Research Corporation, the IPRM Award and the IEEE Cledo Brunetti Award. From 2019 to 2022 he served as Editor-in-Chief of IEEE Electron Device Letters. He is the author of “Integrated Microelectronic Devices: Physics and Modeling” (Pearson 2017, 880 pages), a rigorous and up to date description of semiconductor physics, transistors and other contemporary microelectronic devices.
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