News

In a major step toward making quantum technology more practical and scalable, scientists from, UC Berkeley, and Northwestern ...
Researchers at the Jülich Research Center and the Leibniz Institute for Innovative Microelectronics (IHP) have developed a ...
How a DNA 3D printer could revolutionize nanochip design, enabling optical computing, cheaper microchips, and eco-friendly fabrication.
Photo-induced force microscopy began as a concept in the mind of Kumar Wickramasinghe when he was employed by IBM in the ...
A new silicon material switches from insulator to metal in picoseconds. This breakthrough could speed up future computers.
By integrating a negative capacitance dielectric, the researchers have removed this constraint. They say their results demonstrate that negative capacitance can break conventional electrostatic limits ...
A new approach breaks down complicated designs into modular building blocks for easy assembly from the bottom up.
Ultra-fast, in-line atomic force microscope (AFM), the Metron®3D, goes online for advanced DRAM manufacturing at SK hynix in KoreaThe Metron®3D is able to generate images at speeds 10× that of a ...
Imagine your phone or computer lasting much longer on a single charge, storing more data, and running more smoothly. Thanks ...
AWS’ current-generation AI training chip, Trainium2, provides 1.29 petaflops of performance when processing FP8 floating point numbers. Those are data units that neural networks commonly use to ...
A new technical paper titled “QiMeng: Fully Automated Hardware and Software Design for Processor Chip” was published by researchers at Chinese Academy of Sciences. Abstract “Processor chip design ...
Chinese Academy of Sciences recently introduced “Qi Meng,” the world’s first fully automated AI-based processor chip design system. The system enables end-to-end automation from chip hardware to ...