System Bits: April 21


DARPA's Research DARPA's Semiconductor Technology Advanced Research Network, aka Starnet, unveiled its research plans for 2015 and 2016. Topping the list in 2015 is an investigation into the feasibility of using advanced 2D materials for ultra low-power devices, along with the fab methodology, modeling and simulation tools necessary to make it all work. The fiscal 2015 research will look a... » read more

One-On-One: Dark Servers


Professor Michael Taylor’s research group at UC San Diego is studying ways to exploit dark silicon to optimize circuit designs for energy efficiency. He spoke with Semiconductor Engineering about the post-Dennard scaling regime, energy efficiency from integrated circuits all the way up to data centers, and how the manufacturing side can help. What follows are excerpts of that conversation. To... » read more

Power/Performance Bits: April 14


Elastic energy harvesting Researchers from the Korea Advanced Institute of Science and Technology (KAIST) and Seoul National University collaborated to develop a hyper-stretchable elastic-composite energy harvesting device. Their stretchable piezoelectric generator can harvest mechanical energy to produce a ~4V power output with around 250% elasticity and a durability over 104 cycles. The... » read more

One-On-One: Dark Silicon


Professor Michael Taylor’s research group at UC San Diego is studying ways to exploit dark silicon to optimize circuit designs for energy efficiency. He spoke with Semiconductor Engineering about the post-Dennard scaling regime, energy efficiency from integrated circuits all the way up to data centers, and how the manufacturing side can help. What follows are excerpts of that conversation. (F... » read more

Manufacturing Bits: April 7


Liquid metal for Terminator robots The Chinese Academy of Sciences and Tsinghua University have devised a robot-like, self-fueled liquid metal mollusk. The liquid metal alloy within the system can move by itself and change form like the shape-shifting T-1000 robot in the movie Terminator 2: Judgment Day. The system consists of a liquid metal motor. The liquid metal is a mix of gallium, i... » read more

System Bits: April 7


Ultra-efficient magnetic-field detector In a development that could lead to miniaturized, battery-powered devices for medical and materials imaging, contraband detection, and even geological exploration, MIT researchers have developed a new, ultrasensitive magnetic-field detector they say is 1,000 times more energy-efficient than its predecessors. Magnetic-field detectors, or magnetometers,... » read more

Power/Performance Bits: April 7


Hybrid supercapacitors Researchers at UCLA combined the best qualities of batteries and supercapacitors in a new 3-D hybrid supercapacitor. Based on laser-scribed graphene and manganese dioxide, the new component stores large amounts of energy, recharges quickly and can last for more than 10,000 recharge cycles. The team also created a microsupercapacitor small enough to fit in wearable o... » read more

Manufacturing Bits: March 31


Shish kebab nano necklaces Using a directed self-assembly (DSA) process, Georgia Institute of Technology has developed a method to make nanometer-scale, chip-based necklaces. The technique could enable organic-inorganic structures, which resemble a tiny shish kebab or a centipede. The structures are made with various materials, such as semiconductors, magnetics, ferroelectrics and others. ... » read more

System Bits: March 31


Virtual nose reduces video game simulator sickness While virtual reality games often cause simulator sickness – inducing vertigo and sometimes nausea — new research by Purdue University points to a potential strategy to ease the affliction: adding a virtual nose. They explained that a number of physiological systems control the onset of simulator sickness including a person's overall se... » read more

Power/Performance Bits: March 31


Reusable gallium arsenide wafers A manufacturing process developed by Stanford researchers could dramatically reduce the cost of gallium arsenide electronics, potentially opening up new applications for the material. In the search for silicon's replacement, gallium arsenide (GaAs) has much to offer on performance. It's faster than silicon, less noise, and features a wide direct band gap�... » read more

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