A more distributed power distribution network will help utilities better navigate the wave of changes resulting from the smart grid. Very few industries will experience the rapid change that power ...

The electric power industry is facing numerous challenges, such as the growing demand for power, difficulties integrating renewable energy, and the need to build a sustainable future. These pressures ...

Today’s test stands often supply over 100 A DC to one or several UUTs. To deliver that much current, you must design a power-distribution network consisting of AC-DC power supplies, DC-DC power ...

Modeling power distribution in SoCs is becoming increasingly important at each new node and in 3D-ICs, where tolerances involving power are much tighter and any mistake can cause functional failures.

With the widespread integration of distributed renewable energy sources, such as photovoltaics and wind generators, the distribution network is experiencing ...

Reliably getting power around a package containing multiple dies, potentially coming from multiple sources, or implemented in diverse technologies, is becoming much more difficult. The tools and ...

In telecommunication applications, target impedance serves as a crucial benchmark for power distribution network (PDN) design. It ensures that the die operates within an acceptable level of rail ...

New addition to the JFrog devops platform promises to speed up software deployments, updates, and concurrent downloads across hybrid infrastructure, edges, and IoT devices. JFrog has unveiled the ...