How can laboratory findings be translated into technological advances that become useful in everyday life? A @NatureComms editorial and a series of commissioned Comments explore the fine line between performance improvement and device practicality https://t.co/zY2OZgdvt2
In our latest Reverse Engineering article, Kees Immink recounts the international collaboration between Philips and the Sony Corporation that led to the creation of the compact disc https://t.co/JHSPcYHFzk
Takeshi Nakazawa and Deepak Kulkarni from the @intel Corporation have now developed an approach to classify and identify defects in wafer maps using convolutional neural networks #DeepLearning#Manufacturing https://t.co/DJkNqgy8G3
Yiqun Zhang and colleagues at the University of Michigan, Ann Arbor @umichTECH have now developed a reconfigurable cryptographic processor, termed Recryptor, capable of running multiple cryptographic functions at the same time. #IoT#ResearchHighlight https://t.co/nqdxOgbfdW
N&V: Quantum logic gates based on trapped ions perform more accurately than solid-state devices, but have been slower. Experiments reported in Nature show how trapped-ion gates can be sped up, as is needed to realize a quantum computer https://t.co/LyNEUuOF3s