Aerodynamic shape optimization and design sits at the intersection of fluid mechanics, computational modelling and advanced optimisation algorithms. This field seeks to refine the contours of ...

Responsive materials that morph and adapt like biological systems are non-trivial to design and manufacture. Researchers developed a co-design framework that unites AI, physics, and 3D printing into ...

A computer-optimized thermoelectric generator with an unconventional shape converts waste heat into electricity 8 times more ...

Gone are the days of just blueprints, prototypes and calculations, as engineering now revolves around efficiency, speed and precision in a world where technology is rapidly changing. The world of ...

Programmable material systems are emerging architectural structures but the co-design of structure, material, and external stimuli present grand challenges. A team with Northwestern Engineering’s Wei ...

Modern semiconductor chip design faces growing complexity due to numerous timing scenarios driven by varying operating conditions and physical effects. This complexity is especially pronounced in ...

From bridges to industrial roofs, advanced truss design combines engineering precision, construction best practices, and powerful software to deliver stronger, more efficient structures. Modern ...

In the fast-evolving field of electronic systems design, engineers are under increasing pressure to deliver innovative, high-performance products within ever ...

While generative AI has dominated headlines in recent years, agentic AI is emerging as a powerful tool for design engineers, a topic that will take center stage at this year’s DesignCon. Among the ...

Materials informatics sits at the intersection of experimental science, computation, and data analytics. The aim is simple: use data and models to make discovering, designing, and deploying new ...