Satellites and spacecraft in the vast region between Earth and the moon and just beyond—called cislunar space—are crucial for ...

Quantum chaos describes chaotic classical dynamical systems in terms of quantum theory, but simulations of these systems are limited by computational resources. However, one team seems to have found a ...

Visualize the magnetic field generated by a current-carrying loop using Python simulation. This video demonstrates how electric current creates magnetic field lines, making core electromagnetism ...

Programmatic control, AI integration, and automated workflows for high-frequency design.

Microsoft released new open‑source quantum development tools that deepen VS Code and Copilot integration while targeting real ...

Discover how this powerful open-source SPICE simulator helps you analyse and validate analog, digital and mixed-signal circuits long before hardware is built with detailed netlist control, real ...

Artificial intelligence/machine learning-driven modeling reduces time to market for faster design technology co-optimization development..

Learn how to numerically simulate LR and LRC circuits in Python by solving the circuit differential equations step by step. Explore current and voltage vs. time, compare numerical results to analytic ...

Abstract: Electrical circuits play a vital role in industrial, automotive, and power systems, where even minor faults can lead to severe performance degradation or system failure. Traditional fault ...

Reconfigurable lumped elements of resonant structures significantly impact resonant behavior. Full-wave simulations are expensive and time-consuming. Electromagnetic co-simulation provides an ...

Keysight Technologies, Inc. announced the release of Quantum System Analysis, a breakthrough Electronic Design Automation (EDA) solution that enables quantum engineers to simulate and optimise quantum ...