AMD Powers Up Laptops With New Video Memory and Smoothness Solutions | Parts of computer and their functions | Hardware and software of computer | List of hardware components and their functions | Turtles AI
AMD has launched a new technology, Variable Graphics Memory (VGM), which allows users of laptops equipped with Ryzen AI 300 processors to increase the amount of dedicated video memory by reallocating a portion of system memory. This enables improvements in gaming performance, especially when combined with Fluid Motion Frames 2 (AFMF2) technology. The two features, integrated into AMD’s Adrenalin app, are designed to improve the gaming experience without having to intervene in the BIOS. Early tests show significant increases in frame rate in titles such as “Cyberpunk 2077” and “Horizon Zero Dawn.”
Key points:
- Variable Graphics Memory (VGM): Technology that allows up to 75 percent of system RAM to be converted to dedicated video memory (VRAM).
- Compatibility: Currently available only for AMD laptops with Ryzen AI 300 series processors, such as the “Strix Point” model.
- Fluid Motion Frames 2 (AFMF2): Adds frames to reduce latency and jitter, improving the frame rate of games exceeding 50 fps.
- Performance Impact: Preliminary tests indicate dramatic improvements in demanding titles with the combination of VGM and AFMF2.
AMD recently unveiled Variable Graphics Memory (VGM) technology as part of its Ryzen AI 300 series laptop suite. This technology allows up to 75 percent of system memory (RAM) to be reallocated to dedicated video memory (VRAM), offering a potential increase in graphics performance without having to replace or increase physical system memory. This is a particularly attractive solution for gamers, as many modern titles increasingly require more VRAM to run smoothly. VGM is implemented through the Adrenalin desktop app, making tuning easy and accessible even for those unfamiliar with complex configurations such as the BIOS.
The impact of VGM varies depending on the game. Titles such as “Alan Wake II” and “Cyberpunk 2077,” which require significant amounts of video memory, can achieve significant performance improvements when combined with this technology. A practical example is a laptop with 32 GB of RAM that, thanks to VGM, can turn up to 8 GB of that memory into VRAM, greatly improving performance over the initial 512 MB only. However, the amount of RAM that can be converted varies depending on the total amount of memory available in the system.
In addition to VGM, AMD introduced Fluid Motion Frames 2 (AFMF2), a frame generation technology similar to that offered by NVIDIA and AMD’s DLSS or FSR, but with a different approach. AFMF2 generates new frames dynamically, without the need for the feature to be integrated directly into games. This makes it possible to improve frame rates even on older titles or those not optimized for these technologies, as demonstrated by tests performed on games such as “Far Cry 6” and “Horizon Zero Dawn,” which saw increases from 61 to 91 fps and 65 to 105 fps, respectively.
For Ryzen AI 300-based laptops, these technologies offer a powerful combination that can completely transform the gaming experience, delivering dramatic improvements in both smoothness and lag reduction. AMD expects such solutions to become increasingly common in its future products.
The adoption of VGM and AFMF2 represents an important step toward greater optimization of hardware resources, offering users the ability to improve the graphics performance of their devices without having to modify physical components.