Technical personnel such as engineers and designers need to have input on a device's features and intended functions. In the fiercely competitive medical device and instrumentation industry, speeding ...

Generative design helps engineers explore design, delivering 30-50% faster time-to-market, 10-50% weight reductions, and up ...

Design for manufacturing (DfM) is evolving from traditional engineering practices into a data-intensive discipline that requires real-time integration of manufacturing capabilities, supplier ...

A smart manufacturing environment is centered on the use of intelligent, connected production equipment and devices that allow for data-driven decision-making to optimize processes and productivity ...

Chip design is starting to include more options to ensure chips behave reliably in the field, boosting the ability to tweak both hardware and software as chips age. The basic problem is that as ...

In the early days of the Covid-19 pandemic, the world faced travel bans, physical lockdowns, heightened consumer demand, and supply chain disruptions across every industry. This was especially true of ...

The Department of Engineering Design and Manufacturing is involved in a variety of research and training activities. The following is an overview of the areas that research teams work in, with some ...

The need for Design for Manufacture and Assembly (DFMA) began shortly after the dawn of the Industrial Revolution, but it took a hundred years for it to ultimately come into focus in the 1960s, and it ...

More aggressive feature scaling and increasingly complex transistor structures are driving a steady increase in process complexity, increasing the risk that a specified pattern may not be ...

Best practices on how to work with a manufacturer to mitigate PCBA manufacturing complexity and, ultimately, get your designs to market faster than the competition. Steps in the PCBA manufacturing ...