Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of ...

KAIST researchers have developed the world’s smallest DNA-based molecular computer that can both process and store information, overcoming the one-time-use limitation of earlier designs. The system ...

Precise electrons damage chips from the inside and reveal a quantum flaw that could revolutionize modern electronics.

Researchers at KAIST have created a DNA-based molecular computer that can both process and store information at a scale smaller than 2 nanometers, overcoming the 'one-time use' limitation of previous ...

The setup of the ingenious computer that works with tension and springs. Credit: St. Olaf College It has no wires, no silicon ...

KAIST announced on the 22nd that a research team led by Professor Young-jae Choi of the Graduate School of Engineering ...

Intel, which once dominated the computer chip market as an American innovator, now finds itself chasing its past successes.

Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of ...

LG Display, the world's leading innovator of display technologies, announced that its 27-inch 540/720Hz Dynamic Frequency & ...

KAIST Professor Yeongjae Choi, GIST MS/PhD Student Woojin Kim, KAIST Researcher Taehoon Kim, Researcher Sangeun Jeong, Researcher Sion ...

Complex chips need coherent and non-coherent sub-NoCs to ensure efficient data paths. Correct hierarchy is essential.

2D materials are widely seen as a promising path toward better computer chips. Researchers at TU Wien have now shown that ...