Microelectromechanical systems (MEMS) are rapidly becoming an indispensable part of the design and fabrication of intelligent systems. Bridging the gap between the physical world and the electronic ...

The design and modelling of piezoelectric transducers have advanced considerably, merging innovative configurations with robust analytical techniques. Contemporary approaches utilise both equivalent ...

Drug discovery has traditionally been a reductive process—narrowing down, filtering out, and optimizing within established constraints. Generative AI turns that on its head. It is an expansive force, ...

The increasing complexity of modern antenna architectures demands extensive electromagnetic (EM) simulations, which can be computationally expensive and time‐consuming. Surrogate modelling offers a ...

This blog post was authored by Mo Elsayed Senior Associate and Senior Building Performance Analyst, Page; Jill Kurtz, LEED AP BD+ C, Principal and Director of Building Sciences, Page; and Justin ...

In the fast-paced world of data-driven technologies, MongoDB Inc. has emerged as a powerful and flexible database platform. As organizations seek to unlock the full potential of MongoDB, data modeling ...

VisualSim Architect shows how system-level modeling can expose latency, power, and thermal tradeoffs early in chiplet-based ...

Automation aims to standardize industrial operations and bring overall efficiency to today’s production lines. Such gains, however, may come with considerable effort, as engineering teams must ...

Whether you are an owner, design professional, design consultant, construction manager (CM), general contractor (GC), or subcontractor, it is almost inevitable that you will encounter the use of ...

In highly competitive industries such as automotive, it is increasingly design that differentiates a vehicle from its competitors. And because automotive manufacturers are pressured to get cars to ...

It’s no secret to anyone that chip design gets harder every year. There are two major trends driving these ever-increasing challenges. The first is the continual scaling down to smaller design nodes.

Silicon-carbide (SiC) MOSFETs allow for switching at higher voltage and current. SiC MOSFETs enable low switching losses and higher operating temperatures. The SiC MOSFET’s fast switching speeds ...