EE Student Information


prof Dan Boneh
November 2021

"This is a fascinating area of research with deep scientific questions. Once you get into the details you quickly realize that this area will generate many PhD theses across all of computer science and beyond."

- Professor Dan Boneh


Professor Dan Boneh heads the applied cryptography group, co-directs both the computer security lab and the Stanford Center for Blockchain Research (CBR).

Founded in 2018, CBR's primary mission is to support the thriving blockchain ecosystem by developing new technologies needed to advance the field by bringing together engineering, law, and economics faculty, as well as post-docs, students, and visitors, to work on technical challenges in the field.

CBR has built an extensive education and outreach program, including on-campus courses, student groups (Blockchain Club and Blockchain Collective), MOOCs, workshops, and conferences for the general blockchain community.





prof Krishna Shenoy
October 2021

Congratulations to Professor Krishna Shenoy for his Howard Hughes Medical Institute (HHMI) investigatorship renewal. Krishna's research is in the area of fundamental cortical motor control and brain-computer interface design.

HHMI is a 60-year old non-profit biomedical research organization (>$21B endowment) and is unique in providing long-term flexible funding to relatively few people (~250 total; Krishna and Karl Deisseroth are our SOE HHMI Investigators). HHMI's philosophy is "people, not projects" due to the belief in the power of Investigators to make breakthroughs through sustained, focused and fundamental research."


Please join us in congratulating Krishna on his renewal term and extraordinary research.



"Mozart I" sculpture, Photo credit: Chet Frost
October 2021

This summer Kenneth Snelson's "Mozart I" was installed on the front lawn of the Packard Electrical Engineering Building. The stainless steel beauty previously resided outside of Meyer Library, where it was installed in 1983.

Snelson's sculptural works are composed of flexible and rigid components arranged according to the idea of floating compression. The height and strength of Snelson's sculptures, which are often delicate in appearance, depend on the tension between rigid pipes and flexible cables.

In a 2002 interview, Prof. Jeffrey Schnapp states, "[Snelson's] work is centrally concerned with issues of compression structure, and [his work] represents a very distinctive attempt to bring together the realm of engineering, sciences, and the art of sculpture."


A second Snelson sculpture, "Six #1" can be experienced at the Li Ka Shing Center.

Snelson's works are in permanent collections including the Metropolitan Museum of Art, New York, the Museum of Modern Art, New York, the Whitney Museum of Modern Art, New York, the Art Institute of Chicago, and Stanford University.


Photo credits to Chet Frost.


prof Shanhui Fan
October 2021

Professor Shanhui Fan has been selected as a 2021 Simons Investigator in Physics. Simons Investigators are outstanding theoretical scientists who receive a stable base of research support from the foundation, enabling them to undertake the long-term study of fundamental questions. The intent of the Simons Investigators in Mathematics, Physics, Astrophysics and Computer Science programs is to support outstanding theoretical scientists in their most productive years, when they are establishing creative new research directions, providing leadership to the field and effectively mentoring junior scientists. Congratulations to all of the 2021 Simons Investigators! Simons Foundation News announcement

Shanhui works broadly on photonics theory. He has made fundamental contributions in temporal coupled mode theory, non-reciprocity as induced by dynamic modulation, photonic gauge potentials, waveguide quantum electrodynamics, solar cell light trapping theory and daytime radiative cooling. Recently, he has been working on concepts of synthetic dimensions as a way to explore Hermitian and non-Hermitian topological physics in photonics.

Excerpted from Simons Foundation, 2021 Simons Investigators


Please join us in congratulating Shanhui for this outstanding recognition!


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prof Krishna Saraswat
September 2021
Congratulations to Professor Krishna Saraswat on receiving the 2021 Aristotle Award. The Aristotle Award recognizes supported faculty whose deep commitment to the educational experience of students has had a profound and continuing impact on their professional performance and consequently a significant impact for members over a long period of time. 
"Dr. Krishna Saraswat is a globally-respected leader and pioneer in several critical semiconductor technologies including gate-dielectrics, silicide-contacts, high-speed interconnects, optoelectronics, and high-performance materials (Ge, III-V) for sub-10-nm devices. His profound expertise is only matched by his passion in student advising – 90 Ph.D.s and 35 post-docs, who have gone on to become leading lights in industry and academia, including Presidents (Prof. L. Rafael Reif @ MIT), Deans (Prof. Tsu-Jae Liu @ UC-Berkeley), CEOs (Seok-hee Lee @ SK hynix), CTOs (Ajit Paranjpe @ Veeco), etc. He taught his students critical problem-solving skills and nurtured creative-thinking abilities, which became invaluable strengths throughout their careers.
Dr. Krishna Saraswat has been at Stanford for over 45 years, doing research and guiding graduate students to solve critical research problems in the manufacturing of integrated circuits. He's one of the reasons that Stanford has been a leading academic institution in this area of Electrical Engineering." Source:
Krishna's Award Presentation

Congratulations to Krishna on this very special recognition!

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profs Bill Dally and Andrea Goldsmith
September 2021

Professor Bill Dally and Emerita Professor Andrea Goldsmith have been selected to serve on the President's Council of Advisors on Science and Technology (PCAST). The council consists of distinguished individuals from sectors outside of the Federal Government who advise the President on policy matters where the understanding of science, technology, and innovation is key.

PCAST develops evidence-based recommendations for the President on matters involving science, technology, and innovation policy, as well as on matters involving scientific and technological information that is needed to inform policy affecting the economy, worker empowerment, education, energy, the environment, public health, national and homeland security, racial equity, and other topics.

Not only are its members brilliant and esteemed, they represent the most diverse PCAST in U.S. history. PCAST is traditionally co-chaired by the President's Science Advisor and 1-2 external co-chairs. Since its inception, no women have served as co-chairs. President Biden's PCAST has two women co-chairs. Furthermore, this PCAST reflects the President's commitment to build an Administration that truly looks like America. For the first time ever, women make up half of PCAST and people of color and immigrants make up more than one-third of PCAST. Its diversity will help the council bring to bear a wide range of perspectives to address the nation's most pressing opportunities and challenges, so that science, technology, and engineering benefits all Americans.


Please join us in congratulating Bill and Andrea!


Excerpted from, "President's Council of Advisors on Science and Technology"

prof Priyanka Raina
September 2021

For decades, the general-purpose central processing unit—the CPU—has been the workhorse of the computer industry. It could handle any task—literally—even if most of those capabilities were unnecessary.

This model was all well and good as chips grew smaller, faster and more efficient by the day, but less so as the pace of progress has slowed, says Professor Priyanka Raina, an expert in chip design. Priyanka says that to keep chips on their ever-improving trajectory, chip makers have shifted focus to chips that do specific tasks very well. The graphics processing unit (GPU), which handles the intense mathematics necessary for video and gaming graphics, is a perfect example.

Soon, there’ll be a faster, more efficient chip for every task, but it’ll take industry-wide cooperation to get there, as Priyanka tells listeners to this episode of Stanford Engineering’s The Future of Everything podcast with host Russ AltmanListen and subscribe here.



Source: The Future of Everything Series, "Priyanka Raina: How computer chips get speedier through specialization."


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Professor Priyanka Raina
September 2021

Congratulations to Professor Priyanka Raina for being recognized as an Intel 2021 Rising Star Faculty. The Intel® Rising Star Faculty Award (RSA) program has selected ten promising early-career academic researchers who lead some of the most important technology research of our time. The chosen faculty members work with disruptive technologies that have the potential to advance the future of computing in fields encompassing computer science, electrical engineering, computer engineering, material science, and chemical engineering.

The program recognizes community members who are doing exceptional work in the field and facilitates long-term collaborative relationships with senior technical leaders at Intel. Recipients of this award are also distinguished for exemplifying innovative teaching methods and increasing the participation of women and underrepresented minorities in computer science and engineering.

The key technology areas under investigation by selected faculty include cybersecurity, hardware security, nanotechnology, semiconductor device technologies, neuromorphic computing, machine learning/artificial intelligence, and memory management.

This year's winners include esteemed faculty at the following institutions:

  • Carnegie Mellon University
  • University of Illinois at Urbana-Champaign
  • Arizona State University
  • Stanford University
  • University of Texas at Austin
  • Cornell University
  • University of Pennsylvania
  • Oregon State University
  • Georgia Institute of Technology
  • Indian Institute of Science


Please join us in congratulating Priyanka and all the RSA winners for 2021!


Excerpted from "Intel 2021Rising Star Faculty Award..."

Prof. Eric pop
September 2021

Professor Eric Pop's lab - Pop Lab - took a long shot adapting phase-change memory (PCM) to plastic substrates – turns out the energy-efficiency significantly improved compared to PCM on conventional silicon substrates.

Phase change materials leverage changes in structure into differences in electrical resistance that are attractive for computer memory and processing applications. Khan et al. developed a flexible phase change memory device with layers of antimony telluride and germanium telluride deposited directly on a flexible polyimide substrate. The device shows multilevel operation with low switching current density. The combination of phase change and flexible mechanical properties is attractive for the large number of emerging applications for flexible electronics.

"It's the same atoms as conventional phase-change memory but in beautiful striped alternating thin layers, also known as a superlattice," says Professor Eric Pop.

Eric's group put arrays of memory cells made of superlattices of alternating layers of antimony telluride and germanium telluride on flexible plastic substrates. They were curious whether they could make it work—flexible memory is a key enabling technology for electronic skin, lightweight environmental sensors, and other unconventional electronics. Once grad student Asir Intisar Khan and postdoc Alwin Daus figured out how to make these devices at temperatures that would not melt the polyimide substrate, the researchers were surprised by what they found.

"The flexible substrate provides an extra advantage we did not anticipate," reports Eric Pop. The current density required to switch the flexible memory cells is 10 to 100x lower than any previously reported phase-change memory, and the memory cells maintain their performance when the substrate is bent. After seeing the results, the team was "scrambling," he continues. "Why is this better?" The Stanford group believes that the layers in the superlattice, the cell's "pore-like" design, as well as the insulating properties of the plastic substrate, help confine the energy applied to the memory cells, making them heat up more efficiently and spurring a phase change at lower electrical currents.

Excerpted from c&en (Chemical & Engineering News), "Flexible memory uses less power" and IEEE Spectrum, "This Memory Tech Is Better When It's Bendy



Prof. Bob Gray
September 2021

Congratulations to Professor Robert M. Gray for being selected as a 2020 Okawa Prize Winner. His citation reads, for "seminal research in information coding theory and data compression, and enormous contributions to the promotion of diversity in engineering education."

The Okawa Prize is intended to pay tribute to and make public recognition of persons who have made outstanding contributions to the research, technological development and business in the information and telecommunications fields internationally.

Please join us in congratulating Bob on this meaningful recognition and his continued contributions to electrical engineering and education.


You can learn more about his seminal research and amazing efforts on improving diversity in engineering from his website



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February 2014

Three staff members each received a $50 Visa card in recognition of their extraordinary efforts as part of the department’s 2014 Staff Gift Card Bonus Program. The EE department received several nominations in January, and nominations from 2013 were also considered.

Following are January’s gift card recipients and some of the comments from their nominators:

Ann Guerra, Faculty Administrator

  • “She is very kind to students and always enthusiastic to help students… every time we need emergent help, she is willing to give us a hand.”
  • “Ann helps anyone who goes to her for help with anything, sometimes when it’s beyond her duty.” 

Teresa Nguyen, Student Accounting Associate

  • “She stays on top of our many, many student financial issues, is an extremely reliable source of information and is super friendly.”
  • “Teresa’s cheerful disposition, her determination, and her professionalism seem to go above and beyond what is simply required.”

Helen Niu, Faculty Administrator

  • “Helen is always a pleasure to work with.”
  • “She goes the extra mile in her dealings with me, which is very much appreciated.”

The School of Engineering once again gave the EE department several gift cards to distribute to staff members who are recognized for going above and beyond. More people will be recognized next month, and past nominations will still be eligible for future months. EE faculty, staff and students are welcome to nominate a deserving staff person by visiting

Ann Guerra  Teresa Nguyen  Helen Niu



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