Our brains are not only wondrous works of nature; they are extremely efficient. Computing power has increased rapidly even as the size of electronic devices has decreased, but that all pales in ...

Electricity flow is generally invisible, silent, and not something that most humans want to touch, so understanding how charge moves around can be fairly unintuitive at first. There are plenty of ...

Powered by its hybrid, full-wave finite element EM solver engine, the new SIwave suite delivers a complete signal integrity analysis solution in a single user interface. SIwave-DC targets the DC ...

Google Quantum AI and Keysight joined forces to enhance Quantum circuit simulations with frequency-domain flux quantization Provides an extended library of quantum devices and a robust circuit design ...

Driven by the explosion of big data and expanding applications, chip design complexity is increasing. Applications such as high-performance computing (HPC), the Internet of Things (IoT), automotive, ...

The original circuit simulation software, called the Simulation Program with Integrated Circuit Emphasis, or SPICE as it is more commonly known, was originally developed at the University of ...

Typical 3D thermal simulation of electronics components assumes that all the power consumption the data sheets define is dissipated in the semiconductor. In the case of high current power modules, ...

In this course, you will learn the purpose of each component in an equivalent-circuit model of a lithium-ion battery cell, how to determine their parameter values from lab-test data, and how to use ...

Scientists have developed faster, more energy-efficient microchips based on the human brain -- 9,000 times faster and using significantly less power than a typical PC. This offers greater ...