Surely GOOD NEWS for Team Blue wherein their platform might be a bit slower however the performance per watt is actually better.
A complete 180D turn of events as for Decades the AMD platforms were winning this race!
To OEMS: Yes we want 'thin and light weight' HOWEVER please don't skimp on the Wh of the installed battery!!!
IMHO: it is 'A-OK' to have some extra 'heft' if it is for run times. :)
While for some, having 'light office', 'web surfing' & 'streaming' run times of 20hrs or more seems rather silly, the larger battery that enables these use cases also enables greater than a few hours of game play. :)
notebookcheck.net/Asus-Zenbook-S-16-laptop-review-The-first-Copilot-laptop-with-AMD-Zen-5-inside-a-1-3-cm-thick-case.868219.0.html
Did you just choose a lousy Strix implementation to market Intel? Lol
Quote from: LifePo7 on March 13, 2025, 20:42:52notebookcheck.net/Asus-Zenbook-S-16-laptop-review-The-first-Copilot-laptop-with-AMD-Zen-5-inside-a-1-3-cm-thick-case.868219.0.html
Did you just choose a lousy Strix implementation to market Intel? Lol
890m in the ZenBook S16 doesn't stand a chance against 140V, even in this weak implementation (the X1 Carbon has one of the worst 140V performances of any laptop tested here).
In the S16, Ryzen is limited to 28-33W, and at this level it is well below Lunar Lake.
12 full power cores on AMD vs 4 P and 4 E cores on Intel. Apples to oranges comparison. Why is this useful?
And who buys a thin and light efficient laptop to play games?
Quote from: cynan on March 13, 2025, 22:25:0212 full power cores on AMD vs 4 P and 4 E cores on Intel. Apples to oranges comparison. Why is this useful?
And who buys a thin and light efficient laptop to play games?
Incorrect, it's not 12 full-power cores for AMD, but instead "4x Zen 5 , 8x Zen 5c" so it's 4P+8E done AMD style.
There's nothing wrong with providing decent gaming performance in a (ultra-)thin laptop. Those chips can be used in handhelds (like Steam Deck) and hopefully they also scale up to offer even better performance at the higher, but "standard" gaming laptop power levels.
Quote from: cynan on March 13, 2025, 22:25:0212 full power cores on AMD vs 4 P and 4 E cores on Intel. Apples to oranges comparison. Why is this useful?
And who buys a thin and light efficient laptop to play games?
Lots of folks do!!
While a G14 is more powerful (along with weighing a bunch more) other lightweight power houses are on the market that are very popular.
Who wants to lug around the extra weight of a heavy laptop that is 'gaming enabled' when there are lighter ones on the market?
Nice! I have an 11th gen Intel system, that was before they started putting them on a power diet so it's performance per watt is not great. But I can say the Linux Intel GPU drivers are very good and I'd have no qualms gaming on one.
Your graphs have red and orange and it's quite difficult to tell what is what. Have you considered different colors for each device?
This is wrong. You can expect similar performance at 30 watts for both, if both is used in a laptop environment, it would be capped around 30 watts for both, over 50 watts is diminishing returns.
If you compare both in 30 watts, the Radeon performs only slightly worse (~10%-5 FPS worse), very marginal
I see AMD Defense Force is on it.
As consumers, we should all be fans of sincere competition. If you're AMD fanboy'ing, in this day and age, you are playing the role of corporatist monopoly fanboy.
Keep the playing field even.
The difference is not nearly as big as you show it here in reality. please take the same device with both amd and Intel CPU and compare. You will see that the difference is not as presented here because here the tuning for the HX 375 is for performance and higher tsp, hence the chip tries to give max performance leaving out efficiency.
That is one thing. Second, the amd chip is tuned to have a wider tdp range. Yes, the graphics side doesn't scale well after a certain point giving just a few percents extra of performance for 10-20w+ of power, whereas the Intel chip is tuned for lower tdp only.
So the conclusion should be:
1. Amd does not scale well in graphics performance with tdp over 30w+
2. It scales well in CPU performance after 30w and even at under 30w it's efficiency is better than the Intel chip.
3. The tuning of the laptop can make a chip look inefficient.
And let's be real. we are comparing a super integrated Soc with on package memory and 3nm tsmc (Intel) tuned for lowest power and using pmic (which is very efficient but is limited in the tdp range) vs a classic soc with external memory, 4nm and classic power delivery. The fact that amd can be more efficient in CPU performance at basically at tdps and be equal in efficiency at tdps up to 30w, it's speaks volumes about the AMD product not the Intel one.
Don't get me wrong, for it's purpose the Intel chip is great and a great choice overall. But I would almost always choose the amd chip because it can give so much more.
Both these chips are terrible when you compare the 30w performance to that of Ryzen Ai Max 395 chip.
Just too bad it's barely in anything and super expensive.