Get all your news in one place.
100’s of premium titles.
One app.
Start reading
Tom’s Hardware
Tom’s Hardware
Technology
Anton Shilov

Intel's Ponte Vecchio is Finally in The Wild

Intel

Although we have been talking about Intel's Ponte Vecchio for over three years now, including pictures from the lab, few of us got to see Intel's Data Center GPU Max 1550 (a product based on the PVC design) in the flesh. That's because the chips were delayed repeatedly and not offered in server systems, but now that's changed, with Intel promising these 8-OAM systems will be available for its customers in July. At Computex, Supermicro decided to correct this wrong and demonstrated its X13 8U 8-way Ponte Vecchio GPU system for AI and HPC as well as the compute GPU itself.

(Image credit: Tom's Hardware)

Intel's Ponte Vecchio represents the pinnacle of processor complexity, boasting a transistor count of over 100 billion (excluding memory) and a combined die size of 2,330 mm². The PVC design is a complex arrangement of 47 tiles that includes compute tiles, Rambo cache tiles, Xe Link tiles, and HBM2E memory stacks interconnected using Intel's advanced packaging technologies like Embedded Multi-Die Interconnect Bridge (EMIB) and Foveros. Tiles for PVC are made using a variety of process technologies and then assembled together.  

Supermicro's X13 8U 8-way Ponte Vecchio GPU server itself, it is based on two 4th Generation Xeon Scalable 'Sapphire Rapids' processors rated for up to 350W that are mated with 32 DIMM slots as well as up to 20 hot-swap 2.5-inch SSDs (12 NVMe, 8 SATA).

(Image credit: Tom's Hardware)
(Image credit: Tom's Hardware)

But while Intel's Ponte Vecchio is extremely complex inside, it looks pretty humble in its OAM form-factor with a heatspreader on. Given the fact that the 100-billion-transistors beast is rated for a 600W TDP, it has an intricated voltage regulating module that includes two high-performance converters each of which is serving its own 'half' of MOSFETs for added granularity of power delivery. By contrast, AMD's Instinct MI250X uses only one high-performance converter onboard, though it is 'only' rated for a 550W TDP. Meanwhile, an OAM slot can supply up to 700W of power, so Intel's module was most likely architected with headroom in mind. 

(Image credit: Tom's Hardware)

600W is an exceptional amount of power, so Supermicro's SYS-821PV-TNR uses huge radiators and high-pressure fans to remove the heat from eight of Intel's Data Center GPU Max 1550 processors. These radiators have seven copper heat pipes and dozens of aluminum fins, so even a PVC radiator is a quite an intricate arrangement. 

Sign up to read this article
Read news from 100’s of titles, curated specifically for you.
Already a member? Sign in here
Related Stories
Top stories on inkl right now
Our Picks
Fourteen days free
Download the app
One app. One membership.
100+ trusted global sources.