System Bits: Sept. 20


Improving Torque Sensing In an advance that could bring new types of sensors and studies in quantum mechanics, Purdue University researchers have levitated a tiny nanodiamond particle with a laser in a vacuum chamber, using the technique for the first time to detect and measure its torsional vibration. The team said the experiment represents a nanoscale version of the torsion balance used i... » read more

System Bits: Sept. 13


Big data programming language MIT Computer Science and Artificial Intelligence Laboratory (CSAIL) researchers this week are presenting a new programming language, called Milk, that lets application developers manage memory more efficiently in programs that deal with scattered data points in large data sets. The researchers reminded that in today’s computer chips, memory management is base... » read more

System Bits: Sept. 6


How might AI affect urban life in 2030? In an ongoing project hosted by Stanford University to inform societal deliberation and provide guidance on the ethical development of smart software, sensors and machines, a panel of academic and industrial thinkers has looked ahead to 2030 to forecast how advances in artificial intelligence (AI) might affect life in a typical North American city. Th... » read more

System Bits: Aug. 30


Probing photon-electron interactions According to Rice University researchers, where light and matter intersect, the world illuminates; where they interact so strongly that they become one, they illuminate a world of new physics. Here, the team is closing in on a way to create a new condensed matter state in which all the electrons in a material act as one by manipulating them with light and a... » read more

System Bits: Aug. 23


Monitor side-channel signals for IoT device security Thanks to a Defense Advanced Research Projects Agency (DARPA) grant, Georgia Tech researchers are working to develop a new technique for wirelessly monitoring IoT devices for malicious software – without affecting the operation of the ubiquitous, and low-power equipment. The team said the technique will rely on receiving and analyzing s... » read more

System Bits: Aug. 16


Record-breaking quantum logic gate Reaching the benchmark required theoretically to build a quantum computer, University of Oxford researchers have achieved a quantum logic gate with record-breaking 99.9% precision. They reminded that quantum computers, which function according to the laws of quantum physics, have the potential to dwarf the processing power of today's computers, able to pro... » read more

System Bits: Aug. 9


Using trapped ions as quantum bits MIT researchers reminded that quantum computers are largely hypothetical devices that could perform some calculations much more rapidly than conventional computers can, and instead of the bits of classical computation — which can represent 0 or 1 — quantum computers consist of quantum bits, or qubits, which can, in some sense, represent 0 and 1 simultaneo... » read more

System Bits: Aug. 2


Helping drones navigate urban environments While it has been widely discussed, Amazon wants to start using drones to deliver packages by 2017, but if you live in a high-rise apartment, you might be waiting a bit longer because because UAVs (Unmanned Aerial Vehicles) use GPS for localization and navigation but in urban areas, high-rise buildings may block the line of sight to GPS satellites, ca... » read more

System Bits: July 26


Mixing topology, spin MIT researchers are studying new compounds, such as topological insulators (TIs), which support protected electron states on the surfaces of crystals that silicon-based technologies cannot as part of the pursuit of material platforms for the next generation of electronics. They report new physical phenomena being realized by combining this field of TIs with the subfiel... » read more

System Bits: July 19


Using carbon nanotubes to leapfrog today’s silicon chips According to Stanford University’s Subhasish Mitra, associate professor of electrical engineering and of computer science, and H.-S. Philip Wong, professor of electrical engineering, the future of supercomputing might actually be really, really small. With support from the National Science Foundation, the two are working with IBM and... » read more

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