The New Galaxy S25 could add a new feature that’s perfect for mobile gaming
The Samsung Galaxy S25 is gearing up to impress with its cutting-edge features, and a recent leak adds fuel to the excitement. Renowned leaker Jukanlosreve has revealed that Samsung is developing a new “Game Mode” aimed at enhancing performance without causing excessive heat generation.
According to Jukanlosreve, this Game Mode will leverage Qualcomm’s Adreno Frame Motion Engine 2.0 (AFME 2.0), a breakthrough technology that doubles frame rates in games without increasing power consumption. This means users can expect smoother gameplay without worrying about overheating or significant battery drain.
What makes this feature remarkable is how it addresses a common trade-off in gaming performance. Traditionally, better graphics and higher frame rates require more power, which can drain the battery or compromise visual quality. Samsung’s Game Assist Mode, however, sidesteps these issues by upscaling a game’s frame rate—often from 60Hz to 120Hz—delivering a fluid experience without added strain on the system.
Game Assist is an evolution of Samsung’s existing Game Booster, a tool designed to optimize system settings in real time based on a game’s requirements. For gamers who frequently play on the go, this enhancement is a welcome improvement.
That said, there’s a potential limitation: not all mobile games support high-refresh-rate displays. While popular titles like Dead Cells, Pokémon Go, and Minecraft perform well at 120Hz, many games remain capped at 60Hz for stability. However, with manufacturers embracing higher refresh rates, developers might soon adapt their games to take full advantage of more powerful smartphones.
Samsung is expected to debut this feature with the Galaxy S25 series in 2025, though it could also roll out to other models. Notably, Qualcomm’s AFME 2.0 technology is already compatible with the Snapdragon 8 Gen 3 chip found in devices like the Galaxy S24 series, Galaxy Z Fold 6, and Galaxy Z Flip 6, suggesting broader availability in the future.
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