AMD’s Radeon boss has talked about the RDNA 3 GPU power efficiency, 12VHPWR on Radeon RX 7000 GPUs & ray tracing capabilities.
The interview is very detailed and we would like you to visit Club386 and read the full thing here but some interesting comments were made regarding a few aspects of the RDNA 3 “Radeon RX 7000” GPU family and what we can expect in the coming generation.
Back when AMD was in the process of launching its RDNA 3 GPU architecture, the company promised a monumental +54% increase in power efficiency vs. RDNA 2 GPUs through the use of chiplets and other changes. However, the launch saw little gains in the efficiency department, all the while NVIDIA took their efficiency to a whole new level with the Ada GPU architecture. Scott says that AMD believes in offering good performance per watt across their GPU lineup & that it matters more on the notebook front. So far, AMD has only introduced its non-chiplet Navi 33 to laptops.
Most people aren’t running their computer 24/7 doing crazy tasks tho. I almost never turn my PC off but if I’m not using it it’s generally in sleep mode, some times I just leave it on and running like if I know I have to go out for a few hours but will be right back on the PC where I left off when I return home, but generally it’s asleep and I can’t imagine it’s using much electricity at that point.
It’s all relative. To add some more context with your description,
As mentioned under load my PC (5800x3D + 3080 10gb) draws between 350 and 575 watts (depends on if I have monitors plugged into my UPS and the GPU power draw, some programs draw more than others).
Idling my PC draws about 175 watts.
In sleep my PC draws about 68-80 watts.
Like the NVIDIA GPU server example, even though it’s not a lot of power, in comparison to more efficient computers doing the same task it’s exorbitant.
You’re right that most people with a GPU won’t even be running something under load for a few hours - if they don’t do rendering and they don’t use AI then gaming is the only thing left that can really put a GPU to use.
So then it becomes about efficiency deciding how to optimize those tasks. If AMD can push out performance relative to NVIDIA but for 100 watts less, that’s the difference between a PC in idle and a PC in sleep. That’s pretty sizeable to ignore, even if you just leave the PC on 24/7 as a gaming PC+ready to use web browser. Similarly, if I’m deciding to put my GPU to use at all, it seems reasonable to consider long term cost efficiency. It’s weird to think about since we don’t push it much, but 20 hours a week gaming even 5 years ago vs. today is a huge power difference. Just look at the 1080Ti, a beast back then and still holds up today. Draws only 300 watts under load, and the 980ti can get 250 watts.
In terms of performance, 450w for even the 3090 let alone the 4090 absolutely blows these out of the water, but in terms of long term idle they are also, relatively, much more expensive.
All in all, most people aren’t putting their PC under load 24/7 but most people also aren’t only turning it on as needed. While it’s true that they’re not consistently drawing 300+ watts all the time, they are still likely idling (on just not being used actively) at higher levels than previous generations. My idle is quite close to the 980ti under load which is pretty insane.
Yeah, it also matters the specific setups and cards. There’s still some issues with idle power on newer AMD cards in multi-monitor configs where they draw >50w doing nothing and some configs draw 100+w idling. It’s been an issue since the 7k cards released I believe. They’ve had a few updates which has helped for some people according to various reddit threads, but not everyone. I think the Nvidia ones by comparison only pull like 8w-20w idling.
This isn’t major for most users utilizing sleep most of the day, but it’s also add up over time.