Palit GeForce RTX™ 3070 Ti GamingPro delivers stunning visuals, incredibly fast frame rates, and AI acceleration for gaming and creative applications.
Equipped with Triple A Die Casting Plate Kit and Advanced TurboFan 3.0, the model brings amazing thermal performance. Combining an iron-black and silver-grey design with ARGB, the card also allows customized lighting effects to suit gamers’ own style.
NVIDIA RTX is the most advanced platform for ray tracing and AI technologies that are revolutionizing the ways we play and create. Over 150 top games and applications use RTX to deliver realistic graphics with incredibly fast performance or cutting-edge new AI features like NVIDIA DLSS and NVIDIA Reflex.
Double U Heat Pipe
The patented Double-U Heat Pipes are meticulously molded in optimal angles, and double-bended into U-shape. They enable 20% more heat dissipation area to reduce maximum 5C GPU temperature. With this technology, the 6 heat pipes can offer 6+2 bonus effect on thermal performance.
Triple A Die Casting Plate Kit
Two die casting molded “Aluminum Alloy Armor” plates fully cover the circuit board and directly attach to all the hot spots on PCB.
Keep Silent while you are experiencing the multimedia application and general workload. The operating fans only occurs while working on heavier loading.
DrMOS, originally only available for high-end server CPUs, is now available in all its glory in the next generation of Palit graphics cards. DrMOS offers high current circuits, low noise operation, and effective reduction of heat generating.
Palit’s new ThunderMaster has thorough upgrade from the previous version. It has more user-friendly interface as well as more personalized settings. With ThunderMaster, you can control your video card from overclock setting, fan speed to LED effect. You can also monitor GPU status with ThunderMaster utility.
The design of honeycomb bracket increases airflow by up to 15%, allowing the heat generated from GPU to be exhausted via the honeycomb design bracket. This enables more efficient cooling effects.