Campus Shutdown Notice

In light of the ongoing coronavirus (COVID-19) situation, we have decided to close our administrative offices starting Monday, March 16, 2020 until further notice.  Cory and Soda Hall are closed.  Classes are being held remotely.  All events in Cory and Soda Halls will either be cancelled or held remotely, and staff will be working remotely during this time.

Celebrate 2020 EECS Graduates on Tuesday, May 19

The College of Engineering will be hosting a Celebration of Graduates on Tuesday, May 19, 2020.   The site will go live at 9 a.m. and visitors will be allowed to engage with the content as they wish.  The online, self-guided program is intended to acknowledge and celebrate our graduates’ accomplishments and will include recorded video remarks from the dean, department chairs and other speakers, as well as personalized slides for each graduate.   Plans for a formal graduation ceremony will be announced at a later date.  Congratulations messages to graduates posted on social media using the hashtag #becelebration2020 will appear on the celebration site.   Contact for more information.

EECS researchers discover ferroelectricity at the atomic scale

A team of researchers led by EE Prof. Sayeef Salahuddin and his graduate student, Suraj Cheema, have managed to grow an ultra-thin material on silicon that can power tiny electronic devices at the atomic scale.  Prior to this fundamental breakthrough, the thinnest conventional material that could demonstrate stable ferroelectricity was 3 nanometers thick.  The new ultrathin material, made of doped hafnium oxide just 1 nanometer thick (equivalent to the size of two atomic building blocks), can demonstrate even stronger ferroelectricity than material several times thicker.  This means it can efficiently power increasingly smaller devices, including memory and logic chips, batteries and sensors, with lower amounts of energy.  The findings were published in the April 22 issue of Nature.

David Patterson featured in inaugural episode of ACM ByteCast podcast

CS Prof. Emeritus David Patterson is featured in the inaugural episode of the Association for Computing Machinery (ACM) ByteCast podcast series, released today.  The episode also features John Hennessy who, along with Patterson, won the ACM A.M. Turing Award in 2017 for their breakthrough work in RISC microprocessor architecture.  During the interview, they share their experiences, the lessons they’ve learned, and their visions for the future of computing.  The new podcast focuses on "researchers, practitioners and innovators who are at the intersection of computing research and practice."

Andrea Goldsmith named dean of engineering at Princeton University

EECS alumna Andrea Goldsmith (B.A. ’86/M.S. ’91/Ph.D. ’94, advisor: Pravin Varaiya), who was named Berkeley EE Distinguished Alumna in 2018, has been named dean of Princeton University’s School of Engineering and Applied Science.  Goldsmith has been a professor of electrical engineering at Stanford since 1999 and is a leader in the fields of information theory and communications. She helped lay the mathematical foundations for increasing the capacity, speed and range of wireless systems, and among her 29 patents are many inventions central to cell phone and Wi-Fi networks.  Earlier this month, Goldsmith became the first woman to win the Marconi Prize, said to be the highest honor in telecommunications research.  She has also been active in efforts to increase diversity in STEM fields and is the founding chair of the IEEE Board of Directors Committee on Diversity, Inclusion and Ethics.  When she starts her tenure as dean in September, she will oversee a school comprising six departments and four research centers, including new initiatives in bioengineering, data science and robotics, among others.

Courtney Brousseau has passed away

Alumnus Courtney Brousseau (B.A. CS/Econ '19) has died after  being injured as a bystander in a drive-by shooting in the Mission District of San Francisco.  Brousseau was an active member of the Berkeley community while a student, serving as a CS tutor and acting as chair of the ASUC Student Union.  After graduation, he worked as a Civic Digital Fellow at Coding it Forward in Washington, D.C.,  and was hired as an Associate Product Manager at Twitter last fall.  He also founded an advocy group called Gay for Transit in an effort to improve conditions for bicyclists and make San Francisco streets safer.

Chenming Hu took transistors into the third dimension to save Moore's Law

EECS Prof. and alumnus Chenming Hu (M.S. '70/Ph.D. '73) is the subject of an IEEE Spectrum article titled "The father of FinFets: Chenming Hu took transistors into the third dimension to save Moore's Law" (Volume: 57 , Issue: 5 , May 2020).    Hu devised a way around a limitation in semiconductor design that threatened to keep transistors from getting smaller by innovating a technology called FinFET (Fin Field-Effect Transistors) in the IEEE Spectrum.  His idea was to raise  the channel through which current flows so that it sticks out above the surface of the chip like the fin of a shark.   Hu, who extended manufacturers' ability to miniaturize chips beyond what was expected by decades, won the National Medal of Technology and Innovation in 2016 and the IEEE Medal of Honor in 2020.   The article charts Hu's winding career path, the nature of his research and the impact of his contributions.

Daniel Fremont wins ACM SIGBED Dissertation Award

Freshly-graduate CS Ph.D. student Daniel J. Fremont (advisor: Sanjit Seshia) has won the Association for Computing Machinery (ACM) Special Interest Group on Embedded Systems (SIGBED) Paul Caspi Memorial Dissertation Award for his thesis on "Algorithmic Improvisation."  The award, which was established in 2013, recognizes outstanding doctoral dissertations that significantly advance the state of the art in the science of embedded systems.  Fremont's thesis proposes a theory of algorithmic improvisation to enable the correct-by-construction synthesis of randomized systems, and explores its applications to safe autonomy.

professor ruzena bajcsy

Ruzena Bajcsy wins 2020 NCWIT Pioneer in Tech Award

EECS Prof. Ruzena Bajcsy has won the 2020 NCWIT Pioneer in Tech Award which "recognizes technical women whose lifetime contributions have significantly impacted the landscape of technological innovation, amplifying the importance of capitalizing on the diverse perspectives that girls and women can bring to the table. "   Bajcsy pioneered a new area of study within the field of robotics called Active Perception and was the first to argue that robots should be able to autonomously control the movements of their own sensors and other apparatus for interacting with their environment. She  is known for creating the  first 3D computer atlas of the human brain, which revolutionized brain surgery by allowing doctors to more accurately locate tumors.  Bajcsy also pioneered the process of elastic matching "in which computers match defined points in the human body with standardized medical images, enabling non-invasive diagnostics of the brain and other organs."  Like other winners of the award, Bajcsy serves as a role model whose legacy continues "to inspire generations of young women to pursue computing and make history in their own right."

Hany Farid is fighting back against coronavirus misinformation

CS Prof. Hany Farid is launching a major survey of people in the United States and Western Europe to determine how far COVID-19 misinformation has penetrated the population. Using Amazon’s Mechanical Turk survey software, he and his research team hope to interview thousands of people in an effort to better understand how misinformation is being distributed, consumed, and spread.  Farid will work with other researchers and social media platforms to develop strategies on how to stop misinformation before it can take hold.

Low-cost, readily deployable respirators could help frontline healthcare workers

EECS Associate Profs. Prabal Dutta and Robert Pilawa-Podgurski have embarked on a project with doctors at UCSF to develop cost-effective powered air-purified respirators (PAPR) that will offer greater protection for healthcare workers from the coronavirus during higher risk medical procedures.  They are using an approach originally proposed to them by Oakland resident Lakin Moser, to explore a do-it-yourself PAPR concept that would be medically acceptable, inexpensive to build and rapidly scalable for regional, national and global needs.  Their prototype, which is made with a combination of off-the-shelf components and custom electronic circuits and mechanical parts sourced from Bay Area manufacturers and major electronics distributors, will cost $200 per unit--ten times less than standard devices--and can be manufactured at scale in weeks. “A key aspect of the design was to source components that are widely available, and to provide modularity to enable swap-in of alternatives if supply chain issues arise,” said Pilawa-Podgurski.  The latest version of their prototype, which was built in the team's garages and basements,  is currently undergoing usability testing at UCSF Medical Center to ensure that it meets clinical standards.  The team plans to post their design on the web as soon as it is finalized for production.