$1,599 RTX 4090 Beats $6,800 RTX 6000 Ada in Content Creation(tomshardware.com)
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$1,599 RTX 4090 Beats $6,800 RTX 6000 Ada in Content Creation
https://www.tomshardware.com/news/rtx-4090-beats-rtx-6000-ada-in-content-creation-performance
22 comments
If I wanted to buy myself a computer that I can stick that 4090 into, what's the minimum amount that I would spend such that I don't end up bottlenecking the GPU.
Not for gaming, if that makes any difference.
Not for gaming, if that makes any difference.
A reasonably balanced machine with a 4090 in it is around $2750 if you build it yourself (without an NVMe boot drive, but those can had for less that $100).
Link: https://pcpartpicker.com/user/erichocean/saved/#view=dwDV4D
You could save quite a bit on the motherboard and CPU/cooler if you want to cripple that part of the system.
Link: https://pcpartpicker.com/user/erichocean/saved/#view=dwDV4D
You could save quite a bit on the motherboard and CPU/cooler if you want to cripple that part of the system.
Depends on the workload really. Some workflows involve copying large amount of stuff from disk to RAM and then over to VRAM on the GPU, some workflows are really inefficient while others require basically no VRAM at all.
For example, for fast 3D renders of small scenes you just care about processing speed, large scenes need good memory bandwidth too, while with LLM training you'd care more about available VRAM, and so on.
But, just to throw out a number out there, you could probably get away with spending as little as 300-400 USD for just a motherboard, PSU, CPU, cooler and RAM, assuming you don't want things like storage, cases and whatever accessories. Basically use it as a server.
For example, for fast 3D renders of small scenes you just care about processing speed, large scenes need good memory bandwidth too, while with LLM training you'd care more about available VRAM, and so on.
But, just to throw out a number out there, you could probably get away with spending as little as 300-400 USD for just a motherboard, PSU, CPU, cooler and RAM, assuming you don't want things like storage, cases and whatever accessories. Basically use it as a server.
I can't really buy 4090s for rack mount servers though. Power/cooling can be a pain.
What's preventing someone from jury rigging a blower style GPU to being passively cooled with forced air in a denser setup?
You can buy off the shelf rack systems which let you do this: https://www.ekfluidworks.com/liquid-cooled-rackmount-worksta...
Not to mention the cuda licensing issue with running consumer GPUs in a data center
buried:
> none of the above benchmarks benefit from Nvidia's professional drivers — Siemens NX for example typically sees massive performance gains compared to GeForce cards
> none of the above benchmarks benefit from Nvidia's professional drivers — Siemens NX for example typically sees massive performance gains compared to GeForce cards
Fascinating.
Working in the ecosystem around Siemens NX, I think it's just all of dev work in the field being very use-case specific. Development happens in tandem to big customer projects, so I'd guess non-pro drivers were not just not optimized for, but were simply never on the devs machine in the first place. Maybe they use some feature, that is locked away in non-pro drivers, emulated in standard drivers.
Stuff like 64-bit double precision. I don't even know, is that still locked away behind pro drivers?
Working in the ecosystem around Siemens NX, I think it's just all of dev work in the field being very use-case specific. Development happens in tandem to big customer projects, so I'd guess non-pro drivers were not just not optimized for, but were simply never on the devs machine in the first place. Maybe they use some feature, that is locked away in non-pro drivers, emulated in standard drivers.
Stuff like 64-bit double precision. I don't even know, is that still locked away behind pro drivers?
> However, if you don't need a blower GPU and use applications that aren't specifically de-optimized by Nvidia's GeForce drivers, the RTX 4090 ($1,599 MSRP) can lend you its firepower for 76% less than the cost of an RTX 6000 Ada.
Does nVidia specifically de-optimize (read: handicap) GeForce drivers for certain applications?
Does nVidia specifically de-optimize (read: handicap) GeForce drivers for certain applications?
Somewhat, yes. Eg the consumer GPUs limit the fp16 accumulation rate to limit how well that scales for training models.
That is only possible because of effective monopoly. How is that not getting sued to bones I don't know.
Product segmentation isn't illegal... as much as it sucks for us consumers.
It's a similar thing to AMD sometimes (especially later into a process node's maturity) taking higher quality chiplets with more functional cores and turning off the cores to sell in a lower cost higher demand product or Intel doing similar with their chips.
It'd be illegal if they were lying about it.
It's a similar thing to AMD sometimes (especially later into a process node's maturity) taking higher quality chiplets with more functional cores and turning off the cores to sell in a lower cost higher demand product or Intel doing similar with their chips.
It'd be illegal if they were lying about it.
Artificially segmenting when there is no ongoing cost seems like borderline fraud. Subscription payments for heated seats or dark cores strike me as destroying the environment and fleecing consumers for short-term gains.
Because monopolies aren't illegal.
Can anyone explain to me why it performs so "bad" compared to the 4090, although the specs are way better?
4090 has a higher power limit so it can clock the cores higher to make up for the difference. Unless you need more than 24GB working set in vram it will do just fine.
4090 also doesn’t have ECC RAM, which makes its memory slightly faster as long as you don’t care about correct results…
I see an option for ECC in the nvidia control panel for my card…
The price difference is for the VRAM.