By 'advanced,' the new rules mean processors made on 14nm or 16nm process technologies or more advanced that contain 30 billion transistors or more, according to Bloomberg. But there will be ...

In the wake of the two semiconductor titans clashing, a debate between the merits of 14nm++ and 7nm has sprung ... [der8auer] decided to extract a transistor from both Intel’s and AMD’s ...

The most substantial transistor density increases occurred in the earlier nodes, such as transitions from 28nm to 20nm and then to 16nm/14nm. However, recent process technologies (N5, N4P ...

projected linearly to 14nm dimensions. We examined two critical patterning levels with 193i multi-patterning vs. DSA and compared the impact on interface area between the transistor source/drain and ...

Recently, Intel announced they will not be introducing the 10nm Cannonlake in 2016 as expected, and instead will introduce the 14nm Kaby Lake in 2016. Clearly the number of transistors on a die ...

AGIC C-Fuse OTP has been taped out on the foundry’s 14nm technology platform on June 20 th. In addition, AGIC will have a bunch of tape out events from 180nm to 22nm platform in Tier 1 foundries later ...

A ‘transistor-resilient design’ would have ... incremental improvements within its six-year-old 14nm node—in part to make up for subsequent 10nm delays—the company said it devised a ...

Rocket Lake was the last CPU family to use Intel’s old 14nm process, which had been used for several generations of products since its introduction in 2014. Intel plans to stop producing its ...

TAIPEI — United Microelectronics Corp. (UMC), which has once again become the world’s second-largest chip foundry, said Wednesday (April 29) that it will skip the 20 nm technology node as it aims to ...