ASUS TUF Gaming GeForce RTX™ 3080 12GB
TUF Gaming GeForce RTX™ 3080 buffed-up design with chart-topping thermal performance.
The TUF Gaming GeForce RTX™ 3080 has been stripped down and built back up to provide more robust power and cooling. A new all-metal shroud houses three powerful axial-tech fans that utilize durable dual ball fan bearings. Fan rotation has been optimized for reduced turbulence, and a stop mode brings all three fans to a halt at low temps. Beneath, independent heatsinks for the GPU and memory keep thermals under tight control. Additional features, including TUF components, Auto-Extreme Technology, a new GPU bracket, and a backplate vent make the TUF a proper powerhouse. For builders looking for a new “old faithful”, this card has your back.
TUF Gaming cards leverage our tried-and-true Axial-tech fan design, with three fans working in tandem to satisfy the thermal demands of NVIDIA’s new high-octane design. The fans rely on dual ball fan bearings to ensure consistent performance and increased longevity compared to sleeve bearings and other bearing types.
Heatsink – 2.7-SLOT DESIGN
The heat spreader draws heat up into heatpipes that carry it through a fin stack that fills most of the card’s large, 2.7-slot footprint. This generation of TUF Gaming graphics cards also feature a dedicated heatsink for VRAM to keep temperatures well under maximum operating specs.
PCB – TUF COMPONENTS
Components are selected for TUF Gaming graphics cards based on their durability and performance. In addition to top-shelf chokes and MOSFETs, capacitors that meet military-grade certification make the TUF stand tall amongst the competition. The components are soldered to the PCB using our advanced Auto-Extreme automated manufacturing process. Smooth joints on the rear of the PCB and the elimination of human errors ensure each graphics card meets our rigorous specifications. Finally, to ensure flawless performance when it counts, the cards are subjected to a grueling 144-hour validation trial.
To get heat into the heatsink array efficiently, so that it can be whisked away by the powerful axial-tech fans, we use a manufacturing process that improves the surface smoothness of the heatspreader at the microscopic level. The extra flatness allows for better contact with the die for improved thermal transfer.