Under the agreement, L&T Semiconductor will deploy Synopsys’ simulation software to accelerate AI-enabled design and ...

Semiconductor devices rely on robust predictive models of charge transport to optimise performance and ensure reliability. Contemporary research bridges traditional drift–diffusion approaches with ...

Agreement enables LTSCT to leverage Synopsys’ multiphysics simulation technologies to enhance its design workflows across chip, package and system levels.

LTSCT signs multiyear pact with Synopsys to boost AI-driven power electronics design, strengthening India’s semiconductor ...

An estimated two million different types of medical devices are in the global market today, according to the World Health Organization. 1 From pacemakers to continuous glucose monitors, healthcare ...

Vinci, the pioneer of Physics-Driven AI for hardware design and simulation, emerged from stealth today and announced $46M in total funding, with its Series A led by Xora Innovation and its Seed round ...

Power electronics design is a critical aspect of modern engineering, influencing the efficiency, reliability, and performance of numerous applications. Developing circuits that meet stringent ...

Figure 1. (click to enlarge) Part-level flow simulation. The diversity and complexity of medical devices are likely to increase with time, as will the associated design risks and manufacturing ...

A new technical paper titled “Achieving Sustainability in the Semiconductor Industry: The Impact of Simulation and AI” was published by researchers at Lam Research. “Computational simulation has been ...

The first step for semiconductor chips is visual inspection using an optical microscope or electrical measurements. 2 Mechanical probing, electron beams, emission microscopy, liquid crystal, etc., are ...