The successor to AMD’s EPYC Turin CPUs which will feature Zen 5 cores is rumored to be called EPYC Venice and will feature Zen 6 architecture, reports Moore’s Law is Dead.
AMD EPYC Venice Server CPUs Rumored To Feature Over 200 Zen 6 Cores With Redesigned L2/L3 Cache & HBM SKUs
While the details are quite vague at the moment considering this product isn’t expected to launch till 2025+, it looks like MLID got his hands on very early details regarding the codename and AMD’s marketing has come up with ‘Venice’ for its next-generation EPYC lineup. Named after the capital of the Veneto region in northeastern Italy, the EPYC Venice lineup is expected to be a huge update for servers.
Some details that are shared include references to the AMD Zen 6 cores though it is not known if the red team will continue with its Zen naming scheme beyond 2025 or move to something else. The server segment will continue with the EPYC naming convention. It is said that Zen 6 or the x86 architecture after Zen 5 will make use of a very hybrid core design approach and can offer over 200 cores (a conservative estimate) with rumors of up to 384 cores per socket. There’s no mention if the CPU will be compatible with the SP5 platform but it looks like Turin and its follow-up on Zen 5C might be the last EPYC chips for the upcoming platform. The SP5 socket will last till 2025 which is a good timeframe to provide an update.
As for the upgrades in the architecture itself, the leaker also stated that the AMD is expected to completely redesign the L2 and L3 cache system. The Infinity Cache architecture will also see a major change. Also, HBM will become the standard across most of the lineup and the memory standard will play a huge role in next-generation EPYC CPUs. The on-board HBM hybrid design integrated within EPYC can be used to scale IPC within the same core count. One interesting and key detail is that Tom also expects Zen 5-based EPYC offerings to be amongst the first AMD EPYC server products to feature HBM designs while EPYC Venice will standardize it across multiple SKUs.
In the end, while all of this sounds great, one should remember we are talking about products that launch 3-4 years from now and a lot can change in the meantime. But it looks like EPYC Venice from AMD might indeed be a thing and we can’t wait to see it in action a few years from now!
AMD EPYC CPU Families:
| Family Name | AMD EPYC Naples | AMD EPYC Rome | AMD EPYC Milan | AMD EPYC Milan-X | AMD EPYC Genoa | AMD EPYC Bergamo | AMD EPYC Turin | AMD EPYC Venice |
|---|---|---|---|---|---|---|---|---|
| Family Branding | EPYC 7001 | EPYC 7002 | EPYC 7003 | EPYC 7003X? | EPYC 7004? | EPYC 7005? | EPYC 7006? | EPYC 7007? |
| Family Launch | 2017 | 2019 | 2021 | 2022 | 2022 | 2023 | 2024-2025? | 2025+ |
| CPU Architecture | Zen 1 | Zen 2 | Zen 3 | Zen 3 | Zen 4 | Zen 4C | Zen 5 | Zen 6? |
| Process Node | 14nm GloFo | 7nm TSMC | 7nm TSMC | 7nm TSMC | 5nm TSMC | 5nm TSMC | 3nm TSMC? | TBD |
| Platform Name | SP3 | SP3 | SP3 | SP3 | SP5 | SP5 | SP5 | TBD |
| Socket | LGA 4094 | LGA 4094 | LGA 4094 | LGA 4094 | LGA 6096 | LGA 6096 | LGA 6096 | TBD |
| Max Core Count | 32 | 64 | 64 | 64 | 96 | 128 | 256 | 384? |
| Max Thread Count | 64 | 128 | 128 | 128 | 192 | 256 | 512 | 768? |
| Max L3 Cache | 64 MB | 256 MB | 256 MB | 768 MB? | 384 MB? | TBD | TBD | TBD |
| Chiplet Design | 4 CCD’s (2 CCX’s per CCD) | 8 CCD’s (2 CCX’s per CCD) + 1 IOD | 8 CCD’s (1 CCX per CCD) + 1 IOD | 8 CCD’s with 3D V-Cache (1 CCX per CCD) + 1 IOD | 12 CCD’s (1 CCX per CCD) + 1 IOD | 12 CCD’s (1 CCX per CCD) + 1 IOD | TBD | TBD |
| Memory Support | DDR4-2666 | DDR4-3200 | DDR4-3200 | DDR4-3200 | DDR5-5200 | DDR5-5600? | DDR5-6000? | TBD |
| Memory Channels | 8 Channel | 8 Channel | 8 Channel | 8 Channel | 12 Channel | 12 Channel | TBD | TBD |
| PCIe Gen Support | 64 Gen 3 | 128 Gen 4 | 128 Gen 4 | 128 Gen 4 | 128 Gen 5 | TBD | TBD | TBD |
| TDP Range | 200W | 280W | 280W | 280W | 320W (cTDP 400W) | 320W (cTDP 400W) | 480W (cTDP 600W) | TBD |
The post AMD Zen 6 Architecture Rumored To Power EPYC Venice Server CPUs: Over 200 Cores, Completely Redesigned L2/L3 Cache & HBM SKUs by Hassan Mujtaba appeared first on Wccftech.
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