This edition explores how materials science, nanofabrication, and workforce development intersect to support a resilient U.S.

Continue reading to explore the role of automation in semiconductor manufacturing, as well as its challenges, advantages, and future directions. Like in many industries, automation came in ...

In the fast-paced world of semiconductor manufacturing, achieving higher yields and reducing costs are constant challenges. Ideally, yield should only be impacted by unavoidable defects when ...

IEEE is the world’s largest technical professional organization. It has over 427,000 members across 190 countries who are engineers, scientists and allied professionals. The organization produces over ...

Semiconductor manufacturing is the foundation for technologies ranging from smartphones and electric vehicles to artificial intelligence and cloud computing. The process demands extreme precision in ...

Semiconductor manufacturing, as it currently stands, faces a critical challenge: the lack of immediate, comprehensive feedback on the quality of its outputs. Traditionally, manufacturers have been ...

When it comes to semiconductor device testing, the primary goal is to ensure that each device meets functional and performance specifications. Testing also plays a crucial role in confirming that ...

After more than a decade of research and development, Tokyo Electron Miyagi Ltd. has introduced an innovative semiconductor ...

As the semiconductor industry moves to smaller scales, it must overcome several technical challenges. In 2025, we expect three key developments to make headlines: Gate-All-Around transistor designs, ...

Roughly the size of a fingernail, semiconductor chips breathe life into modern technologies, including artificial intelligence, smartphones, cars and national security systems. They’re also projected ...