To empower those with no AI expertise and to reduce the complexity and cost of implementing deep learning inspection on the production line, FLIR Systems has collaborated with Neurala to develop a fully supported software and hardware solution.
Liquid Instruments, an innovator in precision software-defined instrumentation, has launched Moku:Go, a complete, portable platform designed to bring the engineering lab anywhere and usher in a new era of scientific and engineering education at universities around the world.
Scientists at the U.S. Department of Energy's Ames Laboratory have observed novel helical magnetic ordering in the topological compound EuIn2As2 which supports exotic electrical conduction tunable by a magnetic field. The discovery has significant implications for basic research into functional topological properties and may one day find use in a number of advanced technology applications.
Metal-insulator transition (MIT) driven by many-body interactions is an important phenomenon in condensed matter physics. Exotic phases always emerge around the metal-insulator transition points where quantum fluctuations arise from a competition among spin, charge, orbital, and lattice degrees of freedom.
One prospective source of renewable energy is hydrogen gas produced from water with the aid of sunlight. Researchers at Linköping University, Sweden, have developed a material, nanoporous cubic silicon carbide, that exhibits promising properties to capture solar energy and split water for hydrogen gas production. The study has been published in the journal ACS Nano.
Generation or manipulation of heat forms part of nearly 90% of the world’s energy use, and regulating thermal transport is still a challenge in several fields, ranging from nano- and micro-scale electronic devices to aeronautics.
Progress in the field of integrated circuits is measured by matching, exceeding, or falling behind the rate set forth by Gordon Moore, former CEO and co-founder of Intel, who said the number of electronic components, or transistors, per integrated circuit would double every year. That was more than 50 years ago, and surprisingly his prediction, now called Moore's Law, came true.
When hydrogen is separated from water using solar light rather than fossil fuels, it becomes a non-polluting energy source.
In a breakthrough study, Lund University researchers have developed a novel bioink through which tiny human-sized airways can be 3D-bioprinted using patients’ cells.
Research led by the Cavendish Laboratory at the University of Cambridge has identified a material that could help tackle speed and energy, the two biggest challenges for computers of the future.
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