So It's a big little ARM core with some highly developed power ARM cores when needed.
It's tuned for a very good responsive at 80Hz.
The graphics system is slightly different in terms of it's adaptive graphics for eco gaming mode and tuning the graphics better for a solid highly responsive 80Hz regardless of the game if you pick that mode.
Has a good 2K screen.
5000 series RTX technology and ARM on one chip.
6GB Fast mobile graphics RAM 24GB low watt ram 4 GB of very low watt ram and 48GB of highly optimized single layer cell Flash Ram for extended ram.
If the system is running fully in little mode then the Faster RAM isn't used In eco mode the faster RAM lowered in use and performance to save watts whilst adapting the rendering to compensate and maintain a highly responsive 80Hz.
The the big and little processor can use the faster ram for system operations it's not just tied into the GPU and the GPU even has a sort of little mode which can use the low watt ram instead for some operations.
As very non demanding activity doesn't tend to involve much memory use that sort of stuff can run in ultra low battery mode or some low priority computation can be piped through this very low watt ram.
This could be a surprisingly energy efficient and productive laptop. You could Make unreal 5 ARM edition games on it or play unreal games on it. You could do some AI computation work with it or just do standard web browsing.
Being able to set the level of USB coverage for each port and being able to switch the version and response with automation software would be nice.
Nvidia could use picture warping to shift around a wider desktop than the screen in order to increase productivity closer to having 2 independent screens.
Touch and talk development tools could replace a lot of how we program and develop in the future and laptops like this may be able to run such software okish.
with the introduction of Optimised SLC Flash extended ram with regard to the M2 SSD there isn't going to be that much demand on much random read write access required but good cached random reads will be useful although this is not as important as fast more linear reads for big loads. as a result you can save on random read write performance and some what on random read performance and overall write performance in order to save on watts and increase stability. If the load passes past the extended ram overflow you probably need a more powerful machine for that task so bigger flash wouldn't really make a good enough difference past a 2/1 - 4/1 ratio of extended SLC Flash ram as the system would be too sluggish to perform properly. at 2/1 most needed stuff is in the faster ram and the extended ram is fast enough to access for excess as we move to tasks needing in excess of 4 times the ram then far more necessary process data is in the slower ram and the whole thing begins to stall so that sort of task is too big a task. Adding more faster Ram does help but it also mean more watts are required and the processor can only to so much so you have to match up the ram efficiently to how well it can perform. For example for such a systems tasks in excess of the ram available if there was more ram would probably not run that well on such a system as at that level of memory use their throughput requirement to perform well would probably be to high and there recommend processor requirements.