Cognichip’s approach is to develop a physics-informed foundation model that achieves more parallelism than is available in ...

Global clock network, especially in nanometer CMOS designs with ever increasing die sizes, has become a prominent performance limiter. A potential alternative to traditional interconnect technology ...

In a milestone for scalable quantum technologies, scientists from Boston University, UC Berkeley, and Northwestern University ...

All-optical processing functions such as reconfigurable filtering, logic, and regeneration are experimentally verified on this programmable all-optical processing chip, paving the way for ...

To address this issue, the chip-scale atomic clock is proposed to be used as a backup solution for time synchronization in this paper. It is the first time ever reporting the utilization of CSAC in ...

Precision and stability The rapid evolution of quantum computing and optical clocks has led to a demand for an unprecedented degree of stability, thereby driving the boundaries of contemporary laser ...

The additions aim to make precision timing more accessible across a range of network environments by offering lower-cost optical pumping cesium technology.

Chinese scientists have developed the worlds first high-performance optical computing chip, named Meteor-1, potentially challenging Nvidias (NASDAQ:NVDA) dominance in AI hardware. According to the ...

Wafer-scale technology is making waves again, this time promising to enable artificial intelligence (AI) models with trillions of parameters to run faster and more efficiently than traditional ...

Chinese scientists have recently unveiled an optical chip that could reshape how machines handle data. Developed at the Shanghai Institute of Optics and Fine Mechanics (SIOM), the chip can perform up ...