In my experience with Control, I preferred to run at 4K resolution to make the most of my monitor’s capabilities, and I used the Performance setting in DLSS. Balanced mode, as its name implies, strikes a balance between the two. Since the game renders at a relatively low resolution in Performance mode, you’ll get the most bang for your buck in the FPS department. Quality mode will create the best-looking DLSS image, since it produces the highest-quality source frames for the model. This mode setting determines the resolution at which the game will render before upscaling. Since the frames that serve as input for the neural network are rendered at a lower resolution than your display's native res, the game can run faster.ĭLSS 2.0 implementations vary a little bit in each title, but typically you choose your display’s resolution and then select Performance, Balanced, or Quality modes.
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To make this happen, the system analyzes both the low-resolution aliased image and the motion vectors generated by the game engine and determines how to create a higher-resolution image pixel-by-pixel. We’ll let NVIDIA explain the low-level details about how DLSS works, but here’s the skinny. With DLSS enabled, the game renders at a lower resolution, and then the Tensor cores in your GeForce RTX graphics card leverage a neural network model to upscale each frame to your target resolution. Read on for a deeper dive into DLSS 2.0, our hands-on impressions of the technology, and some analysis of the performance benefits it offers. ROG Elite Rewards members can nab a copy of this game at Gamesplanet for a 15% discount between June 12 and 18, so this is a great opportunity to check it out if you haven’t already. To gather some impressions of DLSS 2.0 and quantify its value for gamers, I took the new tech for a test drive in Control. The result? Lush, detailed visuals nearly indistinguishable from native 4K, but with much higher frame rates than are currently possible when rendering every pixel individually. DLSS 2.0 harnesses AI-accelerating resources called Tensor Cores on GeForce RTX GPUs to upsample in-game graphics to the desired resolution. This spring, NVIDIA launched the second generation of its exclusive Deep Learning Super Sampling tech. Thankfully, I didn’t have to remain stuck on the horns of this dilemma. Push those settings to the limit, and frame rates drop too far to be playable at native 4K. But there’s just one problem: I also want to enable the game’s ray-traced lighting effects, which fill its spaces with impressively accurate reflections and photorealistic shadows. The developers lavished it with fine detail that looks fantastic on my 4K monitor. I’ve recently been playing Control, a compelling and atmospheric adventure set in the unsettling hallways of the Federal Bureau of Control, on my 4K display.