AMD has reintroduced Fluid Motion Video technology in the form of Fluid Motion Frames for gaming, available on a wider range of graphics architectures, with a dedicated driver for gamers who require this feature in supported games, and a Reddit user has provided a guide on how to use the preview driver to enable AFMF for video playback. AMD has reintroduced Fluid Motion Video technology in the form of Fluid Motion Frames for gaming, available on a wider range of graphics architectures with a dedicated driver for gamers.
- Fluid Motion Frames is available on a wider range of graphics architectures, including RDNA3 and RDNA2.
- A Reddit user has provided a detailed guide on how to use the preview driver in combination with the MPC-HC video player and the DXVK translation layer to stream videos through the Vulkan API and enable AFMF.
- Similar projects exist for NVIDIA hardware, such as NVIDIA Optical Flow and RTX Super Video Resolution.
AMD has brought back its Fluid Motion Video technology, but in a slightly different form. With the release of its RDNA architecture, AMD removed support for the feature in its Adrenalin Software stack. However, they have now introduced Fluid Motion Frames for gaming, which operates similarly to Fluid Motion Video. The difference is that Fluid Motion Frames is available on a wider range of graphics architectures, including RDNA3 and RDNA2.
It’s important to note that AMD has not yet released a stable version of the Adaptive Frame Rate Management (AFMF) driver. Instead, they offer a dedicated driver specifically for gamers who require this feature in supported games.
Fluid Motion Video (FMV) was a technology focused on enhancing video playback by generating new frames to increase the video framerate and provide a more lifelike viewing experience. It was particularly useful for older videos and those recorded at lower framerates. However, FMV was only compatible with certain Graphics Cards and lacked support for RDNA series GPUs.
Interestingly, it seems that the AFMF driver can be repurposed to enable Fluid Motion Video functionality. A Reddit user has provided a detailed guide on how to use the preview driver in combination with the MPC-HC video player and the DXVK translation layer to stream videos through the Vulkan API and enable AFMF. It’s worth noting that this method only works with the “Preview 2” driver, as AFMF does not function with Vulkan API on the “Preview 3” driver.
While this feature is valuable for AMD GPU users, it remains uncertain whether AMD plans to officially reintroduce Fluid Motion Video to RDNA1-3 generations. Ideally, AMD would provide an easy-to-use API for video software developers to make it more accessible and versatile.
Similar projects exist for nVidia hardware, such as NVIDIA Optical Flow and RTX Super Video Resolution, which aim to interpolate videos with higher frame rates and upscale videos in real time, respectively.
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Background Information
About AMD:
AMD, a large player in the semiconductor industry is known for its powerful processors and graphic solutions, AMD has consistently pushed the boundaries of performance, efficiency, and user experience. With a customer-centric approach, the company has cultivated a reputation for delivering high-performance solutions that cater to the needs of gamers, professionals, and general users. AMD's Ryzen series of processors have redefined the landscape of desktop and laptop computing, offering impressive multi-core performance and competitive pricing that has challenged the dominance of its competitors. Complementing its processor expertise, AMD's Radeon graphics cards have also earned accolades for their efficiency and exceptional graphical capabilities, making them a favored choice among gamers and content creators. The company's commitment to innovation and technology continues to shape the client computing landscape, providing users with powerful tools to fuel their digital endeavors.Latest Articles about AMD
About nVidia:
NVIDIA has firmly established itself as a leader in the realm of client computing, continuously pushing the boundaries of innovation in graphics and AI technologies. With a deep commitment to enhancing user experiences, NVIDIA's client computing business focuses on delivering solutions that power everything from gaming and creative workloads to enterprise applications. for its GeForce graphics cards, the company has redefined high-performance gaming, setting industry standards for realistic visuals, fluid frame rates, and immersive experiences. Complementing its gaming expertise, NVIDIA's Quadro and NVIDIA RTX graphics cards cater to professionals in design, content creation, and scientific fields, enabling real-time ray tracing and AI-driven workflows that elevate productivity and creativity to unprecedented heights. By seamlessly integrating graphics, AI, and software, NVIDIA continues to shape the landscape of client computing, fostering innovation and immersive interactions in a rapidly evolving digital world.Latest Articles about nVidia
Technology Explained
GPU: GPU stands for Graphics Processing Unit and is a specialized type of processor designed to handle graphics-intensive tasks. It is used in the computer industry to render images, videos, and 3D graphics. GPUs are used in gaming consoles, PCs, and mobile devices to provide a smooth and immersive gaming experience. They are also used in the medical field to create 3D models of organs and tissues, and in the automotive industry to create virtual prototypes of cars. GPUs are also used in the field of artificial intelligence to process large amounts of data and create complex models. GPUs are becoming increasingly important in the computer industry as they are able to process large amounts of data quickly and efficiently.
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RDNA: RDNA (Radeon DNA) is a graphics architecture developed by Advanced Micro Devices (AMD) for its Radeon series of graphics cards. It's designed to deliver improved performance, power efficiency, and advanced features for gaming and graphics-intensive applications. RDNA introduces a new compute unit design that enhances the efficiency of processing tasks, resulting in better performance per watt compared to its predecessor, GCN (Graphics Core Next). RDNA also introduces hardware-based ray tracing capabilities, allowing for more realistic lighting, shadows, and reflections in supported games. With its scalable design, RDNA architecture addresses the demands of modern gaming while aiming to provide a more immersive and visually impressive experience.
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