NVIDIA's GeForce NOW cloud gaming service got a serious upgrade and we'd love to see the Nintendo Switch 2 added to the list ...

A developer has revealed the version of DLSS used in the Nintendo Switch 2, a detail previously not disclosed by Nintendo or ...

The entire point is to show off the Switch 2’s capabilities. Nintendo “prioritizes” games that “take advantage” of the Switch ...

Nvidia says that its chip enables DLSS support on the Nintendo Switch 2, allowing the console to upscale games and provide better performance, much like how DLSS powers Nvidia’s desktop and ...

Nvidia’s last boast is that the Switch 2 has 10 x the graphics performance of the Switch. After seeing the games they’ve shown off in the Switch 2 Direct, we can certainly believe it.

The Switch 2 features a "custom processor made by Nvidia" according to the official tech specs, so Huang recently spoke about Nintendo and Nvidia's collaborative relationship in a recent Nintendo ...

But even Nvidia's release contains far more boasting than actual information. We'll keep an eye out for new details as the Switch 2's June 5 release draws near.

Nvidia has revealed the Nintendo Switch 2 has a custom Nvidia CPU and GPU with dedicated RT Cores and Tensor Cores, and support for DLSS. "The new RT Cores bring real-time ray tracing, delivering ...

Nvidia supremo Jensen Huang has been wagging his tongue about a custom chip for the Switch 2, calling it the most advanced bit of mobile graphics kit the outfit has ever produced.

Nvidia says its Switch 2 processor includes a GPU with dedicated RT cores and tensor cores, which unlock ray tracing and DLSS, respectively. The former will allow Switch 2 titles to incorporate ...

As for the chip at the heart of the Switch 2, it could use a variation of the Orin series of system-on-a-chip (SoC) boards, only with a focus on gaming by making use of a GPU that has Nvidia’s ...

If the Switch 2 hits Eurogamer's predictions and turned out to be just 2.5x faster than its predecessor, I'd expect it was TDP limits holding the chip back more than its innate capabilities.