AMD's FSR Redstone Debuts in Call of Duty: Black Ops 7 with ML Ray Regeneration, RX 9000 Series Exclusive

AMD Unveils FSR Redstone in Call of Duty: Black Ops 7, But Only a Slice of the Pie

In a move that's both exciting and somewhat tantalizing, AMD has rolled out the first piece of its ambitious FSR Redstone suite within the highly anticipated Call of Duty: Black Ops 7. This initial offering, dubbed ML Ray Regeneration, focuses on enhancing the visual fidelity of ray-traced elements, promising a sharper, more immersive experience for players.

ML Ray Regeneration: A Glimpse into FSR Redstone's Potential

The spotlight shines on ML Ray Regeneration, a crucial component designed to tackle the inherent noise and imperfections that can plague ray tracing. This sophisticated technology employs a neural network to meticulously clean up denoised ray-traced lighting and reflection data before it reaches the upscaling module. Imagine it like a highly skilled artist meticulously refining a sketch – the raw, sometimes fuzzy, lines of light and shadow are transformed into crisp, discernible details, particularly noticeable on reflective surfaces like water, glass, and polished materials. This crucial step dramatically improves frame purity during scaling, effectively reducing shimmering, temporal instability, and overall visual noise, breathing new life into complex in-game environments.

RX 9000 Series Gets the Ray Regeneration Treatment

However, this groundbreaking feature comes with a specific hardware requirement: you'll need an AMD Radeon RX 9000 Series graphics card to experience ML Ray Regeneration in Call of Duty: Black Ops 7. AMD has explicitly tuned this technology for optimal performance on their latest GPU architecture, suggesting a significant performance uplift and visual enhancement tailored for this hardware generation. This exclusivity, while understandable from a technological development standpoint, might leave owners of previous-generation AMD cards eager for broader compatibility down the line.

FSR Redstone: A Four-Pronged Attack on Visual Fidelity

It's important to understand that ML Ray Regeneration is just one-fourth of the complete FSR Redstone package that AMD initially teased at Computex 2025. The full suite represents a comprehensive overhaul of AMD's FidelityFX Super Resolution technology, aiming to push the boundaries of what's possible in real-time rendering. The other three promised innovations are:

• ML Super Resolution: This technology aims to reconstruct crystal-clear, high-fidelity images directly from low-resolution frames, leveraging advanced machine learning techniques for superior upscaling.
• ML Frame Generation: Building upon existing frame generation concepts, this iteration utilizes machine learning to intelligently predict and insert entirely new frames between rendered ones. The result is a significantly smoother gameplay experience with dramatically higher frame rates, a true game-changer for performance-hungry titles.
• Neural Radiance Caching: This dynamic system learns and anticipates how light propagates through a scene in real-time, enabling incredibly efficient and lifelike global illumination effects. Think of it as an AI that understands the physics of light, allowing for more realistic and computationally less intensive lighting solutions.

The Future of FSR Redstone Remains Unfolding

While the debut of ML Ray Regeneration is a significant step, AMD remains coy about the rollout of the remaining FSR Redstone technologies. Jack Huynh, AMD's Senior Vice President and General Manager of the Computing and Graphics Group, has indicated that this is merely the "beginning," leaving enthusiasts and industry watchers in suspense regarding release timelines and potential support for older graphics card families. The gaming community is buzzing with anticipation, eager to see the full realization of FSR Redstone and how it will redefine visual benchmarks across the industry.

The introduction of ML Ray Regeneration in Call of Duty: Black Ops 7 marks a pivotal moment, showcasing AMD's commitment to pushing the envelope in graphical innovation. This focused implementation on the RX 9000 series hints at a future where AI-driven enhancements become integral to achieving photorealistic visuals and buttery-smooth performance in the most demanding games.