Chiplets enable scalability but dramatically raise interconnect complexity and risk. Silicon-proven NoC technology is the key ...

‘Asked by Electronics Weekly, at the 2004 IEE/FSA International Semiconductor Executive Forum, how SMIC could access 90nm when the Wassernaar Agreement clearly prohibited the export of equipment ...

A device smaller than a grain of dust may help unlock the kind of quantum computers people have only dreamed about. Built on ...

Artificial intelligence is colliding with a hard physical limit: the energy and heat of conventional chips. As models scale ...

Artificial intelligence is colliding with a hard physical limit: the energy it takes to move data on and off chips. Training ...

Abstract: The emerging computation-in-memory (CIM) architecture effectively overcomes the limitations, such as memory wall and rise in the standby power dissipation associated with the conventional ...

When it comes to developing faster and smaller chips to power next-generation electronic devices, Silicon is seen as the leading option. This abundant, cheap semiconductor provides acceptable carrier ...

A special section aims to untangle AI’s major building blocks while providing a peek into this industry’s evolving design ...

Races, missed next-state values due to long paths, and metastability can result from corrupted clock signals. This post describes the challenges of clock network and clock jitter analysis in more ...

Abstract: The automation of logic circuit design enhances chip performance, energy efficiency, and reliability, and is widely applied in the field of Electronic Design Automation (EDA). And-Inverter ...

This Digital Circuit Simulator provides an interactive platform for learning and experimenting with digital logic circuits. Built with modern web technologies, it offers a drag-and-drop interface ...