category: Research

category: IoT, Security & Automotive

Manufacturing Bits: Oct. 15
By Mark LaPedus - 15 Oct, 2019 - Comments: 0

Sandia’s fab upgrade Sandia National Laboratories has completed the first phase of a three-year upgrade program in its semiconductor wafer fab. The goal of the program is to convert Sandia’s Albuquerque, N.M.-based fab from 150mm (6-inch) to 200mm (8-inch) wafer sizes. As part of the move, Sandia is converting its 0.35-micron (350nm) rad-hard process from 150mm to 200mm. The process is ... » read more

Power/Performance Bits: Oct. 15
By Jesse Allen - 15 Oct, 2019 - Comments: 0

Probabilistic computing Researchers at Purdue University and Tohoku University built a hardware demonstration of a probabilistic computer utilizing p-bits to perform quantum computer-like calculations. The team says probabilistic computing could bridge the gap between classical and quantum computing and more efficiently solve problems in areas such as drug research, encryption and cybersecurit... » read more

System Bits: Oct. 15
By Jeff Dorsch - 15 Oct, 2019 - Comments: 0

When self-driving cars collide As self-driving car technology develops and evolves, it is inevitable that there will be collisions while the tech matures. “What can we do in order to minimize the consequences?” asks Amir Khajepour, a professor of mechanical and mechatronics engineering at the University of Waterloo. “That is our focus.” The first rule for the autonomous vehicle (... » read more

Manufacturing Bits: Oct. 9
By Mark LaPedus - 09 Oct, 2019 - Comments: 0

World’s strongest silver A group has developed what researchers say is the world’s strongest silver. The silver demonstrated a hardness of 3.05 GPa, which is 42% stronger than the previous world record. The University of Vermont, Lawrence Livermore National Lab, the Ames Laboratory, Los Alamos National Laboratory and UCLA contributed to the work. Silver is an element with high electr... » read more

Power/Performance Bits: Oct. 9
By Jesse Allen - 09 Oct, 2019 - Comments: 0

Topological insulator waveguides Engineers at the University of Pennsylvania and Polytechnic University of Milan applied topological insulators to photonic chips to make reconfigurable waveguides. In topological insulators, charged particles can flow freely on the material's edges but can't pass through the interior. For photonics, topological insulators with edges that could be redefined m... » read more

System Bits: Oct. 9
By Jeff Dorsch - 09 Oct, 2019 - Comments: 0

Bringing plasmonic color to solid materials Researchers at the University of California, Riverside, used silver nanoparticles (AgNPs) to produce plasmonic color-switchable films for solid materials. This effect was previously achieved only in liquids. Rapid and reversible tuning of plasmonic color in solid films, a challenge until now, holds great promise for a number of applications,” sa... » read more

Manufacturing Bits: Oct. 1
By Mark LaPedus - 01 Oct, 2019 - Comments: 0

3D balloon printing Using an elastomeric or stretchy balloon, the University of Houston and the University of Colorado have developed a new 3D printing method as a means to develop three-dimensional curvy electronic products. The technology involves the field of 3D printing, sometimes known as additive manufacturing (AM). In 3D printing, the goal is to develop parts layer-by-layer using mat... » read more

Power/Performance Bits: Oct. 1
By Jesse Allen - 01 Oct, 2019 - Comments: 0

Nighttime power Researchers at UCLA and Stanford University created a low-cost device that harnesses radiative cooling to provide a small amount of renewable energy at night. While the device only provides a small amount of power, it could be useful for areas without reliable electricity or access to batteries. Radiative cooling happens when a surface that faces the sky emits heat as therma... » read more

System Bits: Oct. 1
By Jeff Dorsch - 01 Oct, 2019 - Comments: 0

Jumping the gap in microchips A quasi-particle that travels along the interface of a metal and dielectric material may be the solution to problems caused by shrinking electronic components, according to an international team of engineers. "Microelectronic chips are ubiquitous today," said Akhlesh Lakhtakia, Evan Pugh University Professor and Charles Godfrey Binder Professor of Engineering S... » read more

Manufacturing Bits: Sept. 24
By Mark LaPedus - 24 Sep, 2019 - Comments: 0

Free flow electricity Researchers have made some new breakthroughs in the emerging field of Weyl fermions and semi-metals, a move that could one day enable free flow electricity in systems. In 2015, Princeton University and others finally proved a massless particle that had been theorized for 85 years--the Weyl fermion. A fermion is a subatomic particle. Proposed by the mathematician and... » read more

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