Researchers pioneer new pathways towards miniaturised electronics with a scalable, high-efficiency liquid-printing technology for semiconductor manufacturing.
Using novel dual-layered memristor designs, researchers solve processing speed and reliability issues faced by a promising new class of computing devices.
A new generative adversarial network-based framework generates artificial brain wave data that improves classification for better brain-computer interface performance.
theoretical model will allow systematic study of a promising class of peculiar
A*STAR researchers are designing a data-exchange platform that can act as a city’s dashboard
A*STAR researchers are extracting useful information from billions of social media posts to support businesses, governments and healthcare professionals
Optical computing could benefit from the recent development of a novel electromagnetic wave
A numerical simulation predicts the behavior of a component that controls light for faster computing
New insights into the stable magnetism of phase-change semiconductors could enable the development of ultra-high-speed data storage
A*STAR’s flagship project with the University of Illinois based at Fusionopolis begins realizing commercial potential with new technologies in virtual reality and image recognition software