AMD FSR 4 and New AMD Software Features

With the Radeon RX 9000 series, AMD is debuting FSR 4, the latest version of its performance enhancement suite. FSR 4 introduces the biggest tech update since FSR 2, which also makes it exclusive to the RX 9000 series. With the RDNA 4 generation of GPUs offering significantly higher ML compute throughput, AMD designed a new ML-based upscaler to reconstruct details of the upscaled frame. In that sense, FSR 4 is technologically close to DLSS. RDNA 4 GPUs also leverage AI DNNs to de-noise ray tracing and path tracing, unburdening the shaders.

An AI ML based upscaler requires ground truth data, and just as NVIDIA goes through the painstaking task of training game-specific ML models that can later be shipped to end-users through game developers and as driver updates; AMD has set up a large FSR 4 data-center of its own, powered by Radeon Instinct MI300-series AI GPUs for the task. On the client side, the ML-based upscaler needs the dedicated AI acceleration hardware from the RDNA 4 family. The frame generation technology appears to be carried over from FSR 3 Frame Generation, and is essentially a smart frame interpolation technology.


AMD in its presentation provided examples of image quality for FSR 4, claiming that in some cases, FSR 4 presents geometry more accurately than even native resolution. While AMD didn't detail it, FSR 4 comes with preparation for neural rendering. Given that Microsoft has now standardized neural shaders, and the ability for applications to directly address AI acceleration hardware on the GPU via the DirectX API, AMD could in the near future implement neural rendering, however, the company hasn't detailed a timeline. FSR 4 is ready for neural rendered objects.


Fluid Motion Frames gets an update with FMF 2.1, with improved image quality, reduced ghosting, and improved temporal tracking. The company also updated its API-agnostic image sharpening tool, with the introduction of Radeon Image Sharpening 2 (RIS 2).


AMD provides a slick driver frontend application called simply "AMD Software." AMD improved the way in which users can report bugs, artifacts, or corruption in games, through a voluntary (opt-in) feature called AMD Image Inspector.


As you submit a screenshot or video sequence to AMD, the company uses an AI model to identify rendering bugs, or corruption in the display. The entire driver-level game optimization, testing, and bug fixing process has been revamped with AI doing the heavy lifting.


The company also introduced AMD Chat, which is an AI chatbot that runs locally, and is accelerated by the GPU. You can make plain language queries on configuring AMD Software features and settings; and also chat with it on AMD technologies. This is essentially AMD's answer to NVIDIA's ChatRTX, but we don't know if the utility can be trained with custom datasets.


For streamers, AMD Software simplifies connecting their gameplay with their social media and streaming accounts. You can then take advantage of the new dual media engine of RDNA 4 that improves H.264 and HEVC image quality, and use other utilities such as AMD Noise Suppression, which is a 2-way AI-based audio filter.

AMD AI Apps Manager consolidates all your AI applications into a simple launcher-like interface resembling a game launcher.