According to supply chain analyst Ming-Chi Kuo, Apple’s A20 chip should adopt TSMC’s 2nm process for the very first time. This means that next year’s iPhone 18 models should all take the ...

Earlier reports had said the A20 chip would be 2nm, so rumors align again. This is ultimately good news, as it means the A20 chip should have more substantial performance and power efficiency ...

Update — March 20: GF Securities has retracted this information, and it expects the A20 chip to be manufactured with TSMC's 2nm process. The original story follows. While the iPhone 17 series ...

The move represents a key step in Samsung's push for sub-2nm semiconductor manufacturing. Despite lagging... Save my User ID and Password Some subscribers prefer to save their log-in information ...

TL;DR: Samsung may have canceled its sub-2nm processes to prioritize improving yields from its 2nm GAA technology in preparation for the Galaxy S26 release. TSMC may soon gobble up more of the ...

Next year's Exynos 2600 is rumored to be built using the 2nm node that Samsung Foundry is mass producing later this year. But test yields at this node are also poor (30%) even though there has been ...

The latest news is about the acquisition of High-NA EUV equipment from ASML, the world’s sole supplier of such machinery. Earlier this month, Samsung shipped its first TWINSCAN EXE:5000 High-NA ...

While industry giants like Intel and Samsung are working on silicon-based GAA transistors for the sub-2nm era, PKU's researchers believe their 2D approach offers even better electrostatic control ...

ASML and Imec have decided to get cosy for the next five years, ensuring that the Belgian research lab gets a High-NA EUV lithography machine. The unholy alliance is all about cracking sub-2nm ...

The collaboration seeks to enable sub-2nm R&D for the global semiconductor ecosystem. Key research areas will include silicon photonics, memory, and advanced packaging, with a particular focus on ...

The claimed upshot includes the aforementioned 1.4x operating speeds at 90% power consumption versus cutting edge commercial silicon nodes. Given that Intel and TSMC nodes are hardly identical, it ...