Samsung Electronics’ foundry division is struggling to secure large orders from major tech companies for its advanced sub-3 ...

Samsung Electronics is recalibrating its semiconductor foundry roadmap, putting the spotlight squarely on refining its 2 nm ...

In a report from Nikkei, the company may also be mulling a return to more cutting-edge semiconductors by working with Intel ...

CDNS and Samsung extend their collaboration to accelerate next-gen chip design with AI-driven IP on advanced nodes.

Cadence and Samsung collaborated on comprehensive full-flow power integrity analysis for 3D-ICs spanning the entire process, from early exploration to final signoff, and employing advanced Cadence ...

Santa Clara, Calif., June 2, 2015 – GLOBALFOUNDRIES, a leading provider of advanced semiconductor manufacturing technology, today announced it has reached a critical milestone in providing a robust ...

SMIC’s most advanced chip process node successfully made in the past was 14nm, although it has always made strong attempts to move toward an advanced process node (below 10nm).

SMIC first announced that it has achieved mass production of the most advanced 14nm process in China in 2019. The process is the company’s first-generation FinFET process and it started mass ...

A promising future beyond 10nm The first products based on Intel’s 10nm process weren’t as strong as those built using mature enhancements of the 14nm node. This changes with 10nm SuperFin.

It later emerged that the Kirin 710A was manufactured at SMIC foundry using the 14nm Finfet process. The chipset was used on the Honor Play 4T and Huawei Enjoy Tablet 2 meaning a level of mass ...