Let's rewind to 2013 and the A7, Apple's first 64-bit chip built on TSMC's 28nm process. At the time, those 28nm wafers cost Apple $5,000 each, according to Creative Strategies CEO Ben Bajarin's ...

Certus supports IO libraries across multiple TSMC nodes, including 180nm, 130nm, 40nm, 28nm, 22nm, and 16/12nm. Certus is particularly suited at providing custom variants in a cost-efficient framework ...

TSMC increases wafer pricing with each new node although transistor density increases slowdown, says analysis.

GeForce driver support future uncertain Tom’s Hardware has noticed that Nvidia's release notes for CUDA 12.8 show Maxwell, ...

This advancement has driven a transition from the 28nm process used in the A7 to the cutting-edge 3nm node in the... Save my User ID and Password Some subscribers prefer to save their log-in ...

During the gradual move from 28nm down to 3nm, Apple’s die size hasn’t grown much. Instead, Apple and TSMC are squeezing billions more transistors into the same general die size as they move ...

TSMC's expansion through JASM (Japan Advanced Semiconductor Manufacturing); The facility has already started mass production, focusing initially on mature process nodes of 12nm and 28nm.

TL;DR: TSMC has begun mass production at its first fab in Japan, focusing on 12nm to 28nm logic chips for cars and image sensors. The Japanese government, aiming to strengthen its semiconductor ...

BTQ Technologies Corp. (the "Company") (CBOE CA: BTQ) (FSE: NG3) (OTCQX: BTQQF), a global quantum technology company focused ...

Apple's A-series smartphone processors have evolved significantly from the A7 (28nm) to the A18 Pro (3nm), gaining more cores, transistors, and features. With each new node, TSMC charged Apple ...