Very little is presently understood about the Nintendo Switch 2, however leakages exposed the name and a few of the functions of the processor that will power the console, the Tegra T239, a custom-made variation of the T234 processor. Thanks to this, it is possible to get an approximation of how video games will really work on the console.
In a brand-new video today, Digital Foundry attempted to duplicate the processor's specifications with a Dell Vostro 5630 laptop computer powered by a Core i7 1360p CPU, 16 gigs of 4800MHz LPDDR5, a 512GB SSD, and an RTX 2050, which includes the very same silicon as the Ampere-based RTX 3050 and 3050 Ti, however with a somewhat greater CUDA core count over that of the T239, 2048 over 1536. With its 64-bit user interface, it's the GPU that provides a memory bandwidth closest to the one that the Nintendo Switch 2 will include, although the 4 GB of VRAM are most likely less than the quantity of RAM the console will include.
While The Matrix Awakens demonstration, which was reported to operate on the brand-new Nintendo console total with ray tracing, would not work on this system, other titles did, such as Fortinte UE5 with Lumen, Death Stranding, Control, Cyberpunk 2077 and A Plague Tale: Requiem. Thanks to DLSS, all video games perform at above 30 FPS with ray tracing on where relevant at 1080p, and a few of them even at 1440p at appropriate efficiency. Digital Foundry undoubtedly thinks that the Nintendo Switch 2 can certainly bring efficiency similar to that of previous generation consoles, likewise highlighting how NVIDIA's upscaling tech, nevertheless, will be an essential part of the brand-new system.
Digital Foundry's analysis likewise takes a deep take a look at the Nintendo Switch 2's T239 practicality for a portable gadget and more. You can discover this extremely intriguing checked out here.
The Nintendo Switch 2 has yet to be formally revealed. We will keep you upgraded on the console as quickly as more can be found in on it, so remain tuned for all the most recent news.