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 ...

Researchers have developed a detailed three-dimensional electro-thermo-mechanical model to identify and quantify the swelling ...

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

Nvidia and Cadence Design Systems have expanded their partnership to merge high-fidelity physics simulations with advanced AI training for robotics. By combining Cadence’s multiphysics engines with ...

A chip design approach brings heat, power, and signal checks earlier in the process, helping find issues, reduce rework, and improve performance.

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 ...

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 ...

Additionally, Synopsys strengthened its automotive leadership with the launch of a complete UCIe IP ASILB solution on N5A, complementing its high reliability Interface and Foundation IP offerings on ...

Amgen, a leading multinational biopharmaceutical company, uses multiphysics simulation as a tool in its arsenal at any point in their drug production processes to ensure drug efficacy and safety. The ...

Structural analyis codes already do a good job predicting the performance of molded plastic parts. Yet, their results never tell the full story because the mechanical properties of those parts depend ...