Composites have become key materials for strategic industries such as aerospace, new energy vehicles, and high-end equipment due to their superior specific ...

From simulation‑driven development to real‑world execution, Microsoft and NVIDIA are helping manufacturers leverage AI to ...

Artificial intelligence (AI) is no longer a research concept — it is the economic engine driving infrastructure investment worldwide. The growth of AI data centers, powered by high-performance CPUs, ...

Johns Hopkins APL and GKN Aerospace are partnering to develop a system that simulates shipboard motion for metal 3D printing at sea — advancing the Navy’s ability to produce critical parts on demand.

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 ...

Modern manufacturing increasingly depends on sophisticated variation simulation techniques to forecast and mitigate the inevitable discrepancies arising during assembly processes. These simulation ...

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 battery manufacturing production line simulated in Siemens Process Simulate (left) can be seamlessly visualized in high fidelity within NVIDIA Omniverse (right). Using the Siemens Tecnomatix ...

The semiconductor manufacturing process consists of multiple steps and is usually time-consuming. Information like the turnaround time of a certain batch of wafers can be very useful for manufacturing ...

As e-commerce and logistics complexity grow, brands are turning to AI-driven simulation to forecast demand, test scenarios, ...

The figure shows the evolution of the microstructure of the melt pool under the influence of the simulated transient temperature field. Nucleated grains are represented in pink-purple plots, while ...