Wang Appointed as IEEE MTT-S Distinguished Microwave Lecturer

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Hua Wang has been appointed as a Distinguished Microwave Lecturer for the IEEE Microwave Theory and Techniques Society (MTT-S) for the period of 2022-2024. Wang is an associate professor in the Georgia Tech School of Electrical and Computer Engineering (ECE).

An IEEE MTT-S Distinguished Microwave Lecturer typically deliver five to seven talks per year. For each class of these lecturers, only three or four are selected worldwide each year. Manos Tentzeris, who is ECE’s Ken Byers Professor in Flexible Electronics, previously served in this role from 2010-2012.

During his two-year term as an IEEE MTT-S Distinguished Microwave Lecturer, Wang will lecture on broadband and energy-efficient RF/mm-Wave/THz integrated circuits and systems for beyond-5G and 6G communications and sensing. He will also speak on wireless systems for ultra-reliable low latency communications (URLLC), sensing, and hardware security.

Wang is the director of the Georgia Tech Center of Circuits and Systems (CCS), and he leads the Georgia Tech Electronics and Micro-Systems (GEMS) Lab. His research interests include innovating analog, RF, mm-Wave, and THz integrated circuits and hybrid systems for wireless communications, sensing, and bioelectronics applications.

Wang is the recipient of the 2020 DARPA Director's Fellowship, 2020 Qualcomm Faculty Award, 2018 DARPA Young Faculty Award, 2017 IEEE MTT-S Outstanding Young Engineer Award, and 2015 National Science Foundation CAREER Award. He held the Georgia Tech ECE Demetrius T. Paris Professorship from 2014-2018.

Khan Chosen for DARPA Young Faculty Award

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Asif Khan

Asif Khan has been chosen for a DARPA Young Faculty Award. Khan is an assistant professor in the Georgia Tech School of Electrical and Computer Engineering (ECE), where he has been on the faculty since 2017.

Khan is receiving this award for his research on ferroelectric field-effect transistors for embedded non-volatile memory applications. Ferroelectric field-effect transistors is one of the most-promising device technologies for artificial intelligence (AI) and machine learning (ML) hardware, due to its energy efficiency and compatibility with high-volume semiconductor manufacturing. The project will focus on solving the critical voltage problem of this device technology, by identifying and implementing new strategies for interface defect reduction in and the downscaling of the ferroelectric gate-dielectric stack. 

Khan works on advanced semiconductor devices that will shape the future of computing in the post-scaling era. His research group currently focuses on ferroelectric devices in all aspects ranging from materials physics, growth, and electron microscopy to device fabrication, all the way to ferroelectric circuits and systems for AI/ML/data-centric applications.

His early career work led to the first experimental proof-of-concept demonstration of a physical phenomenon, namely the negative capacitance, in ferroelectric materials, which can reduce the power dissipation in electronic devices below the “fundamental” thermodynamic limit. Negative capacitance is currently a vibrant research area in materials science, condensed matter physics, and electrical engineering, and it is being pursued by all major semiconductor companies for advanced transistor technologies.

In the past, Khan has received multiple awards, including the NSF CAREER Award (2021), the Intel Rising Star Award (2020), Qualcomm Innovation Fellowship (2012), TSMC Outstanding Student Research Award (2011), and the University Gold Medal from Bangladesh University of Engineering and Technology (2011). He was also named to the Center for Teaching and Learning Class of 1934 CIOS Honor Roll for his outstanding teaching in ECE8863 Quantum Computing Devices and Hardware in Fall 2020.

Khan’s group currently consists of seven graduate students and two research staff members. They publish in flagship microelectronics conferences, such as the International Electron Devices Meeting (IEDM) and the Symposium on VLSI Technology, and in journals including IEEE Electron Device LettersIEEE Transactions on Electron DevicesNature ElectronicsNature Materials, and Nano Letters. His students received multiple international and Institute-level awards, including the IEEE EDS Masters Student Fellowship (Prasanna Ravindran, 2020) and the Georgia Tech ECE's Colonel Oscar P. Cleaver Award (Nujhat Tasneem in 2018 and Zheng Wang in 2017) for achieving the highest score on the ECE Ph.D. preliminary examination, which was the criteria for the award up to 2018.

Location

Atlanta, GA

Email

jackie.nemeth@ece.gatech.edu

Contact

Jackie Nemeth

School of Electrical and Computer Engineering

Cressler, Romberg Honored with Prestigious IEEE Medals

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John Cressler (left) and Justin Romberg

John D. Cressler and Justin K. Romberg, both faculty members from the Georgia Tech School of Electrical and Computer Engineering (ECE), have been awarded with two of the most prestigious honors presented by the IEEE, the world’s largest technical professional organization dedicated to advancing technology for the benefit of humanity.

Cressler and Romberg were both honored with IEEE medals at the IEEE Vision, Innovation, and Challenges Summit (IEEE VIC Summit) and Honors Ceremony, held virtually May 11-13, 2021. Cressler was honored with the 2021 IEEE James H. Mulligan, Jr. Education Medal for a career of outstanding contributions to education in the fields of interest to IEEE. Romberg was honored as a co-recipient of the 2021 IEEE Jack S. Kilby Signal Processing Medal for outstanding contributions in signal processing.

John D. Cressler

As the recipient of the 2021 IEEE James H. Mulligan, Jr. Education Medal, Cressler was honored “for inspirational teaching and mentoring of undergraduate and graduate students.” He was recognized with this award on May 11 by IEEE President-Elect Ray Liu.

Cressler is the third faculty member from ECE to receive this honor. Previous recipients include Ronald W. Schafer (1992) and James D. Meindl (1990, while with Rensselaer Polytechnic Institute). The James H. Mulligan, Jr. Education Medal was established in 1956 and is sponsored by Lockheed Martin, MathWorks, Pearson, and the IEEE Life Members Fund.

“This is a tremendous honor for John, and his commitment to teaching and mentoring — and to the success and well-being of our students – is a tremendous model for all of us to follow,” said Magnus Egerstedt, Steve W. Chaddick School Chair and Professor in ECE.

Cressler is the Schlumberger Chair Professor in Electronics and the Ken Byers Teaching Fellow in Science and Religion at Georgia Tech. He has been the associate director of the Georgia Electronic Design Center since 2015. Cressler joined the Georgia Tech ECE faculty in 2002 after spending a decade as a faculty member in the Department of ECE at Auburn University. He received his M.S. and Ph.D. degrees in applied physics at Columbia University and his B.S. degree in physics from Georgia Tech in 1984.

Cressler couples his passions for teaching and mentoring with being the leader of one of the largest, most visible, and most productive silicon-germanium (SiGe) research groups in the world. He and his colleagues have written over 700 refereed journal and conference papers, and he has graduated over 100 Ph.D. and master’s students who are now leaders in the electronics industry, academia, and government and research labs or who have started their own successful companies.

Cressler is a mainstay in the microelectronics instructional program in ECE and has introduced first-of-a-kind courses – CoE 3002 Introduction to the Microelectronics and Nanotechnology Revolution and ECE 6444 Silicon-based Heterostructure Devices and Circuits – that use textbooks that he has written and that have been adopted by other universities around the world. He also teaches IAC 2002 Science, Engineering, and Religion: An Interfaith Dialogue in the Ivan Allen College of Liberal Arts. This course is open to undergraduate students of all years and majors and has always been positively received by the students.

Cressler has received many top teaching and mentoring awards from Georgia Tech and from IEEE and Eta Kappa Nu. His goal for his Ph.D. students is to fall in love with research, while maintaining a good work-life balance, and to provide a safe place to fail and to be creative and innovative. In the classroom, Cressler believes that the keys to success are passion for what you teach, being real, being and sharing who you are and what you believe with your students, and being approachable and showing that you care.

Cressler said that teaching is his life and vocation, and he counts teaching and mentoring as his great passion in the classroom, lab, and life. “My accomplishments are best measured by the success of my students,” Cressler said. “Receiving an award for teaching and mentoring, which is something very close to my heart, means a great deal to me.”

To view Cressler’s award presentation from the IEEE VIC Summit and Honors Ceremony, please visit https://ieeetv.ieee.org/channels/communities/awards-hall-c-day-1-ieee-vic-summit-and-honors-ceremony. His presentation starts at the 6:40 mark.

Justin K. Romberg

As a co-recipient of the 2021 IEEE Jack S. Kilby Signal Processing Medal, Romberg was honored “for groundbreaking contributions to compressed sensing.” He received this medal with his colleagues, Emmanuel Candes, who holds The Barnum-Simons Chair in Mathematics and Statistics at Stanford University, and Terence Tao, a professor of mathematics at the University of California at Los Angeles.

Romberg and his colleagues were recognized with this award on May 12 by IEEE President-Elect Liu. He is the fourth faculty member from ECE to receive this honor. Previous recipients include Thomas P. Barnwell (2014), Ronald W. Schafer (2010), and James H. McClellan (2004). The IEEE Jack S. Kilby Signal Processing Medal was established in 1995 and is sponsored by the Kilby Medal Fund.

“This is a tremendous honor for Justin, and our amazing faculty track record in receiving this award speaks of the high regard in which our digital signal processing program is held around the world,” said Egerstedt.

Romberg holds the Schlumberger Professorship and is the associate chair for Research in ECE. He is also the senior director for the Center for Machine Learning at Georgia Tech. Romberg joined the ECE faculty in 2006 after working as a postdoctoral scholar in Applied and Computational Mathematics at Caltech for three years. He received his B.S.E.E., M.S., and Ph.D. degrees from Rice University in 1997, 1999, and 2004, respectively.

Romberg, Candes, and Tao were recognized for their 2006 paper, “Robust Uncertainty Principles: Exact Reconstruction from Highly Incomplete Frequency Information,” which demonstrated that structured signal samples could be reconstructed perfectly from very few samples. The paper established the field of compressed sensing, which is considered one of the most important developments in signal processing in the last 50 years.

This paper spurred a flurry of research activities, with engineers and scientists exploring ways to use compressed sensing in a variety of applications. Compressed sensing has been used in wireless sensor networks, more efficient data aggregation, and improved data recovery, and has resulted in energy-efficient network routing protocols, reduced data transmission requirements, and improved network security.

Compressed sensing has even been used in astrological imaging and medical imaging. The first images of black holes from the Event Horizon Telescope were based on compressed sensing reconstruction methods. However, the greatest success of compressed sensing can be found in MRI imaging, where the technology is used to shorten the imaging process drastically without losing image quality.

Romberg said that one of the best things about the work in compressed sensing is how it has introduced him to ideas and people in many different areas of applied mathematics, such as harmonic analysis, optimization, and applied probability and statistical learning.

“It has been extremely rewarding to be exposed to new ideas from these fields by interacting with researchers on a common problem set,” Romberg said. “It has also been a pleasure to see how this early work was translated into different problem domains and built a strong foundation for me across disciplinary research, which is something that I have valued throughout my career.”

To view Romberg’s award presentation from the IEEE VIC Summit and Honors Ceremony, please visit https://ieeetv.ieee.org/channels/communities/awards-hall-a-day-2-ieee-vic-summit-and-honors-ceremony. His presentation starts at the 4:55 mark.

Khan Wins NSF CAREER Award

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Asif Khan

Asif Khan has been named as a recipient of the NSF CAREER Award. He is an assistant professor in the Georgia Tech School of Electrical and Computer Engineering (ECE) and also holds a courtesy appointment in the School of Materials Science and Engineering.

The title of Khan’s award is “Antiferroelectric Negative Capacitance Transistors for Ultra-low Power Computing,” and it will start on March 15, 2021 and end on February 28, 2026. 

Today's society is experiencing an unprecedented growth of its digital footprint – be it in the form of uploading a photo on Facebook, live-streaming a teaching module to a massive global audience on YouTube, or commandeering a revolution via Twitter. This convenience of modern computing, however, comes with a steep cost in terms of energy use and environmental impact. Today, the global information infrastructure, such as data centers, emit as much greenhouse gases as that of the state of Nevada or a country, such as The Netherlands or Malaysia, and constitute around 1 percent of world-wide electricity demand. According to scientific estimates, this fraction may increase to a double digit percentage in the next 15-20 years. 

At the core of this predicament lies the fact that the fundamental building blocks of digital hardware – the transistors – have long been overdue for a prime upgrade in terms of their energy efficiencies. The proposed research aims to explore an energy-efficient transistor concept – known as a negative capacitance field-effect transistor, using a new class of materials called antiferroelectric oxides. 

Khan joined the ECE faculty in 2017. His research is on advanced semiconductor devices—devices that will shape the future of computing in the post-scaling era. His research group currently focuses on ferroelectric devices, in all aspects ranging from materials physics, growth, and electron microscopy to device fabrication, all the way to ferroelectric circuits and systems for artificial intelligence/machine learning/data-centric applications. Khan’s Ph.D. work led to the proof-of-concept demonstration of the negative capacitance phenomenon in ferroelectric materials, which can reduce the power dissipation in electronic devices below the ‘fundamental’ thermodynamic limit. This culminated in the initial development of the field of negative capacitance.

Khan has published 2 book chapters and 70 journal and peer-reviewed conference publications, and he has given 20 invited talks and tutorials at premier microelectronics and ferroelectric conferences. Khan currently has one patent pending at Intel. 

Khan’s awards include the NSF CAREER award (2021), Intel Rising Star Award (2020), Qualcomm Innovation Fellowship (2012), TSMC Outstanding Student Research Award (2011), and the University Gold Medal from Bangladesh University of Engineering and Technology (2011). His group at Georgia Tech consists of six Ph.D. students and three research engineers, many of whom won Institute-level and international awards, including an IEEE Electron Devices Society (EDS) Masters Student Fellowship (2020). Khan’s research is supported by the National Science Foundation, the Defense Advanced Research Projects Agency, the Semiconductor Research Corporation, and Intel Corporation. 

Khan has also developed a graduate course, ECE 8863A Quantum Computing Devices and Hardware, as a part of the campus wide response to the national prioritization of quantum computing, known as the National Quantum Initiative Act (NQIA) that was signed by the U.S. president in 2018. Khan recently received the Class of 1934 CIOS Honor Roll award for excellence in teaching this course in Fall 2020. 

Location

Atlanta, GA

Email

jackie.nemeth@ece.gatech.edu

Contact

Jackie Nemeth

School of Electrical and Computer Engineering

404-894-2906

LED Lighting Development Wins 2021 Queen Elizabeth Prize for Engineering

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Nick Holonyak Jr., Isamu Akasaki, M. George Craford, Russell Dupuis, and Shuji Nakamura awarded the world’s most prestigious engineering accolade

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The 2021 QEPrize is awarded for the creation and development of LED lighting, which forms the basis of all solid-state lighting technology. Russell Dupuis, of the School of Electrical and Computer Engineering at the Georgia Institute of Technology, was recognized with his colleagues Nick Holonyak Jr., Isamu Akasaki, M. George Craford, and Shuji Nakamura, for not only for the global impact of LED and solid-state lighting, but also for the tremendous contribution the LED technology has made, and will continue to make, to reducing energy consumption and addressing climate change.

First awarded in 2013 in the name of Her Majesty The Queen, the QEPrize exists to celebrate ground-breaking innovation in engineering. The 2021 winners were announced on February 2 by Lord Browne of Madingley, Chairman of the Queen Elizabeth Prize for Engineering Foundation. HRH The Princess Royal shared a message of congratulation for the winners.

Solid-state lighting technology has changed how we illuminate our world. It can be found everywhere from sports stadiums, parking garages, inside and outside commercial buildings, homes, digital displays and computer screens and cell phones to hand-held laser pointers, automobile headlights and traffic lights. Today’s high-performance LEDs are used in efficient solid-state lighting products across the world and are contributing to the sustainable development of world economies by reducing energy consumption.  

Visible LEDs are now a global industry predicted to be worth over $108 billion by 2025 through low-cost, high-efficiency lighting. They are playing a crucial role in reducing carbon dioxide emissions, consuming significantly less energy and producing 90% less heat than incandescent lighting, and their large-scale use reduces the energy demand required to cool buildings. For this, they are often referred to as the ‘green revolution’ within lighting.

“Engineering is imperative to solving human problems. All over the world, everyone knows the QEPrize. Most importantly, this is a team prize. I was able to do what I did in the 1980s, because of what had come before. When I was modifying reactors every morning and every afternoon continuously for a year and a half, I never thought it would be so successful." Shuji Nakamura

“This is a really special moment for me. The QEPrize is so prestigious and it is spectacular to receive recognition from The Royal Family. It is a career highlight that is impossible to beat. Engineering is incredible, and I am proud to part of something that has made such a big impact on the world.” George Craford

“It is really something to share in this award with my friends and colleagues – all five of us each played an important role, and this recognition means a lot to me personally. In those early days, when we were working long days and nights hand-building reactors, Nick Holonyak mentored us. He really drew us in and inspired us to be part of the adventure that is engineering.” Russell Dupuis

“This year’s Prize winners have not only helped humanity to achieve a greater degree of mastery over the environment, they have enabled us to do so in a sustainable way. They have created a product which we now take for granted, but which will play a major role in ensuring that humanity can live in harmony with nature for many more centuries to come.” Lord Browne of Madingley, Chair, Queen Elizabeth Prize for Engineering Foundation

“The impact of this innovation is not to be understated. It makes lighting a lot cheaper and more accessible for emerging economies. For example, LEDs are being used on fishing boats where previously the only option would have been paraffin lamps. They are much cheaper and safer. It is not only an extreme engineering achievement, but a societal impact that has a significant impact on the environment.” Sir Christopher Snowden, Chair of the QEPrize Judging Panel

Dupuis holds the Steve W. Chaddick Endowed Chair in Electro-Optics and is a Georgia Research Alliance Eminent Scholar in the School of Electrical and Computer Engineering at the Georgia Institute of Technology; Nakamura is the Cree Chair in Solid-State Lighting and Displays in the Materials Department at the University of California, Santa Barbara; Craford is a Solid-State Lighting Fellow at Philips Lumileds Lighting Company; Akasaki is a University Professor at Nagoya University and Meijo University (Japan); and Holonyak is the John Bardeen Endowed Chair Emeritus in Electrical and Computer Engineering and Physics at the University of Illinois at Urbana-Champaign.

The winners will be formally honoured at a ceremony later this year; they will receive the £1 million prize and an iconic trophy, designed by the 2021 Create the Trophy winner Hannah Goldsmith, a 20-year-old design student from the United Kingdom.

 

About the 2021 QEPrize

QEPrize celebrates engineering’s visionaries, encouraging engineers to help extend the boundaries of what is possible across all disciplines and applications. It also inspires young minds to consider engineering as a career choice and to help to solve the challenges of the future.

The QEPrize is administered by the Queen Elizabeth Prize for Engineering Foundation and funded by generous support from the following corporate donors: BAE Systems plc, BP plc, GlaxoSmithKline, Hitachi, Ltd., Jaguar Land Rover, National Grid plc, Nissan Motor Corporation, Shell UK Ltd., Siemens UK, Sony, Tata Steel Europe, Tata Consultancy Services, and Toshiba.

The 2021 winners are awarded a total cash prize of £1 million.

Contact

For more information or to request an interview, please contact Edelman at QEPrize@Edelman.com

Georgia Tech/Atlanta media contact: John Toon, 404-894-6986, john.toon@comm.gatech.edu

Yu Appointed as IEEE CASS Distinguished Lecturer

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Shimeng Yu has been named as a Distinguished Lecturer for the IEEE Circuits and Systems Society (CASS) for 2021-2022. Yu is an associate professor in the Georgia Tech School of Electrical and Computer Engineering (ECE).

Yu leads the Laboratory for Emerging Devices and Circuits, where he and his team design energy-efficient computing systems based on emerging nanoelectronic devices. An example of his group’s work is the development of hardware accelerators for machine/deep learning with CMOS and beyond CMOS technologies.

The two areas in which Yu will present lectures include:

  • Circuit Design and Silicon Prototypes for Compute-in-Memory for Deep Learning Inference Engine
  • NeuroSim: A Benchmark Framework of Compute-in-Memory Hardware Accelerators from Devices/Circuits to Architectures/Algorithms

Yu has been a member of the ECE faculty since 2018. Prior to joining Georgia Tech, he was on the ECE faculty at Arizona State University for five years. Yu has received numerous awards over the last several years, including the ACM/IEEE Design Automation Conference 40 Under-40 Innovators Award, Semiconductor Research Corporation Young Faculty Award, ACM Special Interest Group on Design Automation Outstanding New Faculty Award, and IEEE Electron Devices Society Early Career Award. 

Yu has been active in IEEE CASS activities, including serving on the technical committee of Nanoelectronics and Gigascale Systems and the review committee of the IEEE International Symposium on Circuits and Systems (ISCAS). He currently serves as the associate editor of the IEEE Journal on Exploratory Solid-State Computational Devices and Circuits (JxCDC). More information on IEEE CASS can be found at https://ieee-cas.org/

Location

Atlanta, GA

Email

jackie.nemeth@ece.gatech.edu

Contact

Jackie Nemeth

School of Electrical and Computer Engineering

 

Cressler Honored with 2020 Outstanding Educator Award by IEEE Atlanta Section

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John Cressler will receive the 2020 Outstanding Educator Award from the IEEE Atlanta Section at a virtual banquet hosted by the group on November 10. This award is presented to a member of the Atlanta IEEE community who has exhibited continued and dedicated contributions to education through teaching in industry, government, or an institution of higher education.

Cressler has been a faculty member in the Georgia Tech School of Electrical and Computer Engineering (ECE) faculty since 2002. He is currently the Schlumberger Chair Professor in Electronics and the Ken Byers Teaching Fellow in Science and Religion. 

A mainstay in the ECE microelectronics instructional program, Cressler has also introduced three new courses into three different areas of the Georgia Tech curriculum, ECE 6444: “Silicon-based Heterostructure Devices and Circuits;” CoE 3002: “Introduction to the Microelectronics and Nanotechnology Revolution;” and IAC 2002: “Science, Engineering, and Religion: An Interfaith Dialogue,” which is taught through the Ivan Allen College of Liberal Arts.  

Cressler has written books for each of these three courses. Silicon Earth (2016), now in its second edition and also translated into Chinese. Meant for a general audience, the book serves CoE 3002, which is intended for all majors, including both business and liberal arts students. Silicon-Germanium Heterojunction Bipolar Transistors (2003, with G. Niu) is the most widely cited textbook in this field and serves his graduate course, ECE 6444. In all of his courses during his 28+ year career, Cressler ends each of his classes, including IAC 2002, with a handed-out quotation and a sharing of a personal reflection relevant to his students’ lives. For this purpose, he compiled over 600 quotations and reflections in the book, Reinventing Teenagers (2004).

Cressler's career-long teaching effectiveness average is a 4.9, and he is a fully dedicated mentor to the students in his classes. On the research side, Cressler has mentored and graduated 60 Ph.D. students during his academic career (50 at Georgia Tech), and he and his team have published over 750 archival papers. The graduates of his research group have continued onto successful and meaningful careers in industry, academia, and government labs and agencies.

Cressler has received several high-level IEEE teaching and mentoring awards and has been presented with Georgia Tech’s top honors in undergraduate teaching and graduate student mentoring. In 2013, he was recognized with Georgia Tech's highest award for faculty, the Class of 1934 Distinguished Professor Award.

Khan Recognized with 2020 Intel Rising Star Award

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Asif Khan has been named as one of the 10 awardees of the 2020 Intel Rising Star Award. Khan is an assistant professor at the Georgia Tech School of Electrical and Computer Engineering (ECE).

The purpose of the program is to help promote the careers of early career faculty members who show great promise as future academic leaders in disruptive computing technologies and to foster long term collaborative relationships with Intel. The awards were given based on progressive research in computer science, engineering, and social science in support of the global digital transition in the following areas: software, security, interconnect, memory, architecture, and process.

Khan joined the ECE faculty in 2017, with a courtesy appointment with the School of Materials Science and Engineering. He received his Ph.D. in electrical engineering and computer sciences from the University of California, Berkeley in 2015.

Khan’s research is on advanced semiconductor devices—devices that will shape the future of computing in the post-scaling era. His group is currently focusing on ferroelectric devices on all aspects ranging from materials physics, growth and electron microscopy to device fabrication, all the way to ferroelectric circuits and systems for artificial intelligence/machine learning/variable load applications. 

His research group consists of five graduate students and two research staff members. They publish in venues such as the International Electron Devices Meeting, the Symposium on VLSI Technology and CircuitsIEEE Electron Device Letters, IEEE Transactions on Electron Devices, Nature Electronics, Nature Materials, Nano Letters, and Nature.

Khan’s program is supported by the National Science Foundation, the Semiconductor Research Corporation, and the Defense Advanced Research Program Agency. His Ph.D. research led to the first experimental demonstration of the negative capacitance effect in ferroelectrics, which can reduce the energy dissipation in CMOS technology below the fundamental thermodynamic (Boltzmann) limit. One of his publications was cited as one of the nine significant papers in the history of ferroelectricity in a 2020 editorial article in Nature Materials, celebrating the 100th year since the discovery of ferroelectricity in 1920.

Lambert Named President-Elect of IEEE PES

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Frank Lambert

Frank Lambert has been named president-elect for the IEEE Power and Energy Society (PES). His appointment to this role is effective on January 1, 2018, and he will serve in this capacity through 2019.

Lambert will then serve as the IEEE PES president in 2020-2021 and as its past president in 2022-2023. The IEEE PES provides the world’s largest forum for sharing the latest in technological developments in the electric power industry, for developing standards that guide the development and construction of equipment and systems, and for educating members of the industry and the general public.   

Lambert is a principal research engineer at the Georgia Tech National Electric Energy Testing, Research, and Applications Center (NEETRAC) and the Center for Distributed Energy. After spending the first 22 years of his career working at Georgia Power, Lambert came to Georgia Tech in 1996, where he helped to establish NEETRAC, an electric energy-focused research and testing consortium with over 40 electric utility and manufacturing members.

Lambert’s research interests are in power delivery systems, electric vehicles, sensors and communications systems for smart grid, power flow control, and integration of renewable energy into the grid. He earned bachelor's and master's degrees in electrical engineering, both from Georgia Tech. 

Four Georgia Tech Faculty Named IEEE Fellows

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Jaydev Desai
Four Georgia Tech faculty members were named IEEE Fellows, effective January 1, 2018. They are Jaydev Desai, a professor in the Wallace H. Coulter Department of Biomedical Engineering (BME); Saibal Mukhopadhyay and Justin Romberg, both professors in the School of Electrical and Computer Engineering (ECE); and Kevin James “Jim” Sangston, a senior research engineer in the Georgia Tech Research Institute (GTRI).
Saibal Mukhopadhyay has been an assistant professor in ECE since 2007.
Kevin James "Jim" Sangston

Four Georgia Tech faculty members were named IEEE Fellows, effective January 1, 2018. They are Jaydev Desai, a professor in the Wallace H. Coulter Department of Biomedical Engineering (BME); Saibal Mukhopadhyay and Justin Romberg, both professors in the School of Electrical and Computer Engineering (ECE); and Kevin James “Jim” Sangston, a senior research engineer in the Georgia Tech Research Institute (GTRI).

The IEEE Grade of Fellow is conferred by the IEEE Board of Directors upon a person with an outstanding record of accomplishments in any of the IEEE fields of interest. IEEE Fellow is the highest grade of membership and is recognized by the technical community as a prestigious honor and an important career achievement.

Desai is being recognized “for contributions to medical and swarm robotics.” A BME faculty member since 2016, he also serves as associate director of the Institute for Robotics and Intelligent Machines and as director of the newly launched Georgia Center for Medical Robotics. Desai’s research interests are primarily in image-guided surgical robotics, cancer diagnosis at the micro-scale, and rehabilitation robotics. Before joining Georgia Tech, Desai was a professor in the Department of Mechanical Engineering at the University of Maryland, College Park.

Mukhopadhyay is being recognized “for contributions to energy-efficient and robust computing systems design.” An ECE faculty member since 2007, he leads the Gigascale Reliable Energy Efficient Nanosystem (GREEN) Lab, where he and his current team of 12 Ph.D. students develop smart machines that are able to generate usable information from real-time data for diverse applications - from self-powered sensors to mobile phones to high-performance servers. Mukhopadhyay’s team explores algorithmic principles to make these systems energy-efficient, robust, and secure, and pursue their experimental demonstration in silicon. 

Romberg is being recognized “for contributions to compressive sensing.” An ECE faculty member since 2006, he is the School’s associate chair for Research and holds the Schlumberger Professorship. In addition, Romberg serves as associate director for the Center for Machine Learning. He conducts research that is on the interface between signal processing, applied harmonic analysis, and optimization. Romberg and his current team of six Ph.D. students are interested in both the mathematical theory and real-world implementation of algorithms to make difficult processing tasks much easier.

Sangston is being recognized “for contributions to coherent detection of radar signals in clutter.” He initially came to GTRI from the U.S Naval Research Laboratory in 1996. His research in target detection in difficult clutter environments from the mid-1990s up till the present time has been a fruitful source of ideas and motivation for many investigators pursuing advanced research on radar target detection problems throughout the world. He currently works in the Sensors and Electromagnetic Applications Laboratory (SEAL), where he conducts research that seeks to combine advanced geometric and algebraic ideas to solve challenging radar signal processing problems. 

The IEEE is the world’s leading professional association for advancing technology for humanity. Through its 400,000-plus members in 160 countries, the association is a leading authority on a wide variety of areas ranging from aerospace systems, computers and telecommunications to biomedical engineering, electric power, and consumer electronics.

Dedicated to the advancement of technology, the IEEE publishes 30 percent of the world’s literature in the electrical and electronics engineering and computer science fields, and has developed more than 1,300 active industry standards.  The association also sponsors or co-sponsors nearly 1,700 international technical conferences each year.  To learn more about IEEE or the IEEE Fellow Program, please visit www.ieee.org.

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