- Joined
- Jun 24, 2015
- Messages
- 8,150 (2.37/day)
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System Name | ab┃ob |
---|---|
Processor | 7800X3D┃5800X3D |
Motherboard | B650E PG-ITX┃X570 Impact |
Cooling | NH-U12A + T30┃AXP120-x67 |
Memory | 64GB 6400CL32┃32GB 3600CL14 |
Video Card(s) | RTX 4070 Ti Eagle┃RTX A2000 |
Storage | 8TB of SSDs┃1TB SN550 |
Case | Caselabs S3┃Lazer3D HT5 |
It clearly is - it's the first product to hit the market with a brand-new technology; it's relatively limited in scope (one SKU, the last product for a five-year-old platform, etc.) and they have announced no plans for further models for this platform with the feature. Definitely a test drive.
Almost definitely. It doesn't make sense on all SKUs, but a wider roll-out on a chip more thoroughly adapted to this (with a separate cache voltage rail, for example) would make a lot of sense. Something like every tier from x6xx or x8xx upwards having a 3D cache-enabled top-end SKU would make sense (i.e. 7600 65W, 7600X3D 105W, 7800 65W, 7800X3D 105W, etc.). This would make a lot of sense if they can make the cache die on 7nm even when the CCDs move to 5nm, as that would free up capacity to churn out more cache dice.
Just to be clear: no multiplier-based, fixed frequency and voltage OC is not "no OC". PBO and Curve Optimizer are still ways of overclocking, and they seem to be supported here. They also deliver better results in general on Zen2 and Zen3 than old-school OC techniques.
Haven't finished watching the video yet, but did he confirm PBO is actually around? Generally even Auto PBO quickly enables higher Vcore peaks (1.5V+) not possible at stock. Yes CO is fine, but seeing as the current AGESA completely removed Boost Override (only to be later reintroduced), sounds like they were prepping their firmware for the 5800X3D by removing the whole shebang. Without Override there's not much point to CO since all Vermeer chips hit their stock global limits easily
But knowing AGESA they have an abysmal record of keeping features consistent (especially vendors like GB that release and pull a billion beta BIOSes weekly). So if the V-cache really is that sensitive to voltage, then that sounds like a recipe for disaster..........but I wonder if it's that the cache really can't handle the voltage, or that heat density is too much under certain heavy loads?
Think Intel have had separate cache clock and voltage for like a decade now - obviously a bit more involved with V-cache but I'd fully expect this whole deal to be resolved on AM5. 5800X3D is just an experiment searching for guinea pigs
Currently on normal L3, cache freq is very closely correlated to core effective clock at all times, so curious to see if they have or will eventually decouple cache clock
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