Computational Imaging proposal accepted for collaborative research initiative

A Computational Imaging research proposal submitted by EE Associate Prof. Laura Waller, EE Associate Prof. Michael Lustig, CS Assistant Prof. Ren Ng, CS Assistant Prof. Jonathan Ragan-Kelley, and CS Associate Prof. Benjamin Rechts has been accepted as part of a set of cross-disciplinary activities planned for development by Berkeley Research.  Berkeley Research ran eight faculty forums on a wide range of topics and received 30 proposals which were reviewed by a faculty panel and discussed with the Deans.  The selected projects "hold great promise for Berkeley to be at the forefront of developing a positive vision for the future."

Ali Javey's team's Wearable Sweat Bio-sensor

Prof. Ali Javey and his team's presentation at the 2016 International Electron Devices Meeting (IEDM) is profiled in an EE Times article titled "Sweating Big Human-Body Data Challenge." This year, IEDM papers  explored a number of technologies to make flexible and printable electronics,  and Prof. Javey's team's paper stood out. Unlike conventional wearable devices, the team has zeroed in on the idea of attaching sweat biosensors — like a patch — on the body to collect sweat as it appears, for “real-time perspiration analysis.”

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NVIDIA Delivers AI Supercomputer to Berkeley

Earlier this year NVIDIA CEO Jen-Hsun Huang delivered a NVIDIA DGX-1 AI supercomputer in a box to the Berkeley AI Research Lab (BAIR). BAIR’s research is at the cutting edge of multi-modal deep learning, human-compatible AI and connecting AI with other scientific disciplines and the humanities. According to Prof. Pieter Abbeel, “More compute power directly translates into more ideas being investigated, tried out, tuned to actually get them to work.”

Salto the wall-jumping robot is the most vertically agile ever built

EECS Prof. Ronald Fearing, EECS PhD student Justin Yim, post doc Dr. Mark Plecnik, and ME PhD student Duncan Haldane have created Salto, the most vertically agile jumping robot.  Salto can repeatedly jump 1 meter vertically at almost two times per second.  Salto is featured in the premier issue of Science Robotics (Dec. 6).

Paul Debevec: A Name You Absolutely Need to Know in CG, VFX, Animation, and VR

Alumnus Paul Debevec (Ph.D. 1996) is the subject of a Cartoon Brew interview titled "Paul Debevec: A Name You Absolutely Need to Know in CG, VFX, Animation, and VR." Paul's insights into virtual cinematography, image-based lighting (IBL), and the crafting of photoreal virtual humans inspired several films, including The Matrix, Spider-Man 2, and Avatar, along with games and real-time rendered content.   Paul is now an adjunct research professor at the University of Southern California Institute for Creative Technologies (USC ICT) and just began as a senior staff engineer in the GoogleVR Daydream team, working at the intersection of virtual reality and real-time rendering.  The interview explores why his research has had such a major influence on computer graphics, animation, vfx, and vr.

Researchers Develop New Parallel Computing Method

CS postdoctoral fellow Jeff Regier (adviser: Michael Jordan) along with researchers from Julia Computing, Intel,  NERSC, LBNL, and JuliaLabs@MIT have developed a new parallel computing method to dramatically scale up the process of cataloging astronomical objects. This major improvement leverages 8,192 Intel Xeon processors in Berkeley Lab’s Cori supercomputer and Julia, the high-performance, open-source scientific computing language to deliver a 225x increase in the speed of astronomical image analysis.

The code used for this analysis is called Celeste.  “Astronomical surveys are the primary source of data about the Universe beyond our solar system,” said Jeff. “Through Bayesian statistics, Celeste combines what we already know about stars and galaxies from previous surveys and from physics theories, with what can be learned from new data. Its output is a highly accurate catalog of galaxies’ locations, shapes and colors. Such catalogs let astronomers test hypotheses about the origin of the Universe, as well as about the nature of dark matter and dark energy.”

More detail can be found in an article on HPC Wire "Researchers Develop New Parallel Computing Method."

RISC-V (Five) is Alive!

RISC-V, an open-source instruction set architecture created at UC Berkeley is featured in an electronic design article titled “RICS-V (Five) is Alive!” RISC (Reduced Instruction Set Computer) was originally designed in 1982 by students with the direction of Professors David Patterson and Carlo Sequin. Since then, iterations of RISC have been developed. In 2010 Prof. Krste Asanovic, with the help of Prof. Patterson, decided to develop another version of RISC to help both academic and industrial users and RISC-V was published.

Alex Bayen weighs in I-80 SMART corridors

EE professor and Director of the Institute of Transportation Studies, Alex Bayen, is interviewed by KRON4 News for an piece titled "Are the I-80 SMART corridors easing traffic congestion?"  Bayen says “It’s not going to be possible in the future to build more infrastructure to accommodate more traffic. So, in order to relieve that congestion, we need other solutions and the solutions have to do with operations and planning, and this is really where SMART corridor concept can make a huge difference.”

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Fung Institute for Engineering celebrates 5th year anniversary

The Coleman Fung Institute for Engineering celebrated its fifth year anniversary with reflections on how far the institute has grown. Launched in January of 2010, the institute is the hub connecting engineering disciplines with management, data, and social sciences, transforming engineers and scientists into leaders who can take risks and develop technical, social, and economic innovations.  The Fung Institute administers the Master of Engineering program.

prof. david wagner

David Wagner receives ACM SIGSAC 2016 Outstanding Innovation Award

Prof. David Wagner has won the ACM Special Interest Group on Security, Audit and Control (SIGSAC) 2016 Outstanding Innovation Award. This award is given for outstanding and innovative technical contributions to the field of computer and communication security that have had lasting impact in furthering or understanding the theory or development of secure systems. Prof. Wagner is recognized "For innovative research in systems security, software security, and cryptography that has inspired research in sandboxing, static analysis for security, and cryptanalysis."