The Turing Award 50th Anniversary celebration was held at the Westin St. Francis in San Francisco on June 23-24, 2017.   CS Professors Stuart Russell and Michael Jordan participated on a panel discussion about advances in deep neural networks, Prof. Umesh Vazirani moderated a panel on quantum computing.  Prof. Emeritus and Turing winner Michael Stonebraker discussed the legal ramifications of collecting data from a growing number of devices with different encoding formats, and alumnus and Turing winner Butler Lampson (Ph.D. '67) participated on a panel about the end of Moore's Law.

The ACM A.M. Turing Award is considered the "Nobel prize of computing," and comes with a $1 million prize for contributions of lasting and major technical importance to the computing field.   EECS faculty have won four:  Richard Karp for theory and efficiency of algorithms (NP-completeness) in 1985, William Kahan for numerical analysis (floating-point) in 1989, Manuel Blum for computational complexity theory and cryptography in 1995, and Michael Stonebraker for modern database systems in 2014.  EECS alumni have won seven: Ken Thompson (B.S. '65/M.S. '66) for operating systems theory (UNIX) in 1983, Niklaus Wirth (Ph.D. '63) for computer languages (EULER/Pascal, etc.) in 1984, Butler Lampson (Ph.D. '67) for distributed, personal computing (workstations, networks, etc.) in 1992, Douglas Englebart (MS. '53/Ph.D. '55) for interactive computing in 1997, Leonard Adleman (Ph.D. '76) for public-key cryptography in 2002, and Shafi Goldwasser (M.S. '81/Ph.D. '84) with Silvio Micali (Ph.D. '82) for cryptography and complexity theory in 2012.

A paper co-authored by Prof. Sanjit A. Seshia and postdoctoral researcher Dr. Alexandre Donze, along with researchers from Toyota, has been selected for the 2017 IEEE Transactions on CAD Donald O. Pederson Best Paper Award. This award recognizes the best paper published in the Transactions on Computer-Aided Design of Integrated Circuits and Systems publication. Donald O. Pederson was a professor of electrical engineering in EECS and one of the designers of SPICE, the canonical integrated circuit simulator. The paper, entitled "Mining Requirements from Closed-Loop Control Models", received this recognition at the 54th Design Automation Conference.

Ana Arias has been selected for the 2017 Research and Development Award from the Flexible and Printed Electronics Conference, organized by FlexTech, a consortium that supports the development of flexible electronics. The FLEXIs recognizes outstanding work and achievements of organizations and individuals active in flexible hybrid electronics (FHE). The four categories include Research & Development, Innovation & Commercialization, Industry Leadership, and Education Leadership. Associate Professor Arias is recognized for the development of flexible medical sensors and printed flexible devices. Her breakthrough research has led to the creation of flexible receiving coils for magnetic resonance imaging devices and devices for impedance sensing for the detection of early pressure ulcers in vivo.

Alistair Sinclair has been awarded the 2017 Association for Computing Machinery (ACM) Distinguished Service Award. This award is presented on the basis of value and degree of services to the computing community including activities on behalf of the ACM, other computer organizations, and/or other entities. Prof. Sinclair is recognized for his role in the spectacular success of the Simons Institute for the Theory of Computing in taking collaboration in the field to an entirely new level.

Jose Carmena is mentioned in IEEE’s publication The Institute in an article titled “Timeline: The Evolution of Assistive Technologies”  (see timeline at the bottom of the article, year 2017). In celebration of The Institute's 40th anniversary this article highlights topics and technologies  over the past four decades that have applied electronics to significantly help people overcome disabilities. Professor Carmena is recognized for contributions to the neural basis of motor-skill learning and neuroprosthetic systems. His research program in neural engineering and systems neuroscience is aimed at understanding the neural basis of sensorimotor learning and control, and at building the science and engineering base that will allow the creation of reliable neuroprosthetic systems for the severely disabled. He is also co-chair of the IEEE Brain Initiative and Co-Director of the Center for Neural Engineering and Prostheses at UC Berkeley and UCSF.

In an effort to gather scientists at the interface between neurosciences, optical engineering, and computer science, an all-day conference is being held on Friday, June 9, in Stanley Hall titled Sculpted Light in the Brain.   Participants are united in their mission to develop technologies to enable real time optical communication with the living brain.  The endeavor was initiated with a $2k seed grant to the California Institute for Quantitative Biosciences (QB3) and grew into a $20K showcase for the collaboration between neuroscientists, electrical engineers, and computer scientists, highlighting U.C. Berkeley's position as a preeminent leader in brain research. The conference, which already has a 50 person waitlist, will host 11 fully funded speakers including EE Associate Prof. Laura Waller,  present 25 posters, and is supported by a dozen corporate sponsors .

Many researchers are working on ways for robots to learn to grasp and manipulate things by practicing over and over, but the process is very time-consuming. The research work on robotic deep learning by Prof. Ken Goldberg is featured on the cover of MIT Review in an article titled "Meet the Most Nimble-Fingered Robot Yet".  Instead of practicing in the real world, Prof. Ken Goldberg and colleagues have developed a robot that learns by feeding on a data set of more than a thousand objects that includes their 3-D shape, visual appearance, and the physics of grasping them. This data set was used to train the robot’s deep-learning system. Advances in control algorithms and machine-learning approaches, together with new hardware, are steadily building a foundation on which a new generation of robots will operate.

Prof. David Culler has been appointed the Interim Dean for the newly created Division of Data Sciences.  The purpose of the new division is to bring techniques to bear in statistics, mathematics, and computer science on new sources of data.  One of their goals is the creation of an undergraduate data science major and data science minor.   Prof. Culler's duties will include fostering a cooperative atmosphere among the relevant faculties; working with the administration to form an advisory board with representation of key external constituencies; advancing fundraising efforts in concert with broader campus fundraising objectives; and enlisting a team of Berkeley faculty members who will work with him to develop the initiative. He will begin his new role on July 1, 2017 for a two-year term.

CS Prof. Stuart Russell gave an engaging TED talk in April describing some of the problems in, and possible solutions for, creating a species that is smarter than humans.  He argues that building provably altruistic,  humble, and humanitarian machines might help us avoid some of the pitfalls inevitable in a future with superintelligent AI.

Computer vision pioneer Prof. Avideh Zakhor is the subject of a Mercury News profile titled "Avideh Zakhor: the brains behind Google Earth and Street View,"  which touches on her emigration from Iran,  the creation of the 3-D city modeling technology for a Defense Department-funded start-up which she ultimately sold to Google, and her current research on indoor mapping.  She also discusses the value of encouraging skilled immigrant workers to come to the U.S and the importance of getting more women into STEM fields.  "Maybe then we wouldn’t in Silicon Valley have a shortage of STEM workers — it makes it very hard for tech companies to operate; the labor market is very tight." she says.