A prototyping problem is emerging in today’s efforts to electrify everything. What works as a lab-bench mockup breaks in reality. Harnessing and safely storing energy at grid scale and in cars, trucks ...

Digitally prototyping complex designs, such as large physical structures, biological features, and micro-electromechanical systems (MEMS) requires supercomputers running sophisticated multiphysics ...

It’s surprising to learn that the idea of 3D integrated circuits (3D ICs) has been kicking around for over sixty years. Not long after the first MOS IC emerged in 1960, researchers were already ...

Register now for this upcoming webinar, hosted by multiphysics simulation software provider COMSOL, exploring how to train ...

For design teams adopting 3D-IC architectures, the relentless pursuit of performance and reliability brings a familiar, yet increasingly complex, set of challenges: how do we manage power, dissipate ...

Multiphysics flows describe fluid motions that are strongly coupled to other physical processes such as heat transfer, species transport, phase change, electromagnetism or structural deformation. In ...

Ansys® RedHawk-SC™ is certified for TSMC's advanced 3nm process technology Ansys' comprehensive power, thermal, and reliability analysis enables mutual customers to meet key requirements for ...

Soon after computers entered the technology landscape, finiteelement analysis (FEA) emerged as a method to solve real-world engineering problems. The work of engineers, applied mathematicians, and ...

Complex technologies are forcing automotive engineers to work in areas outside their fields of expertise. A mechanical engineer, for instance, can be called upon to use electronics, fluid dynamics and ...