NewsPC & Computers

NVIDIA Hopper GPU to Rumored to Feature 140 billion Transistors

That’s one mind-boggling amount of transistors on a single chip! To give you an idea … a GeForce RTX 3080 series contain around 28.3 billion transistors!

Taken from Videocardz … According to a rumor from Chiphell forums, NVIDIA’s next-gen data center GPU called Hopper might feature as many as 140 billion transistors.

Chiphell user Zhangzhonghao did not actually mention GH100 or any other GPU by its name, however, the context clearly refers to NVIDIA’s upcoming 5nm GPU codename Hopper. It is said that more than 140 billion transistors might be used by this AI processor.

The most recent rumors put Hopper GPUs among the largest processors ever made. It was said that might even feature a 900 mm² die, but many enthusiasts are rightly skeptical of this claim because the current EUV photomask (reticle) limit is 858 mm².

Furthermore, it is said that Hopper architecture might actually span into multiple designs, one of them (GH100) being a monolithic chip while rumored GH102 might actually be a multi-chip-module design. One should mention here is that there were also rumors about another Ampere data-center chip called GA101 (supposedly of half of the size of GA100), but this GPU was never released.

The Hopper architecture is set to compete against already-announced AMD Aldebaran GPU and Intel’s upcoming Ponte Vecchio. This might be the first time all three companies will at the same time have powerful accelerators with HBM2e memory and Multi-Chip-Module design.

NVIDIA has never acknowledged its Hopper architecture release plans, but the word on the street is that they might announce this architecture at GTC 2022 in March.

Source: Videocardz

 

Related posts

Leave a Comment

* By using this form you agree with the storage and handling of your data by this website.

This site uses Akismet to reduce spam. Learn how your comment data is processed.

This website uses cookies to improve your experience. We'll assume you're ok with this, but you can opt-out if you wish. Accept Read More