GIGABYTE Custom-designed Cooling System

The GIGABYTE Custom-designed cooling system features a 90mm fan, 3 pure copper composite heat-pipes, unique blade fan design, heat pipes direct touch technology together delivering an effective heat dissipation capacity for higher performance at lower temperatures.

GIGABYTE Cooling System- Fans

Unique Blade Fan Design

The airflow is spilt by the triangle fan edge, and guided smoothly through the 3D stripe curve on the fan surface, effectively enhancing the air flow by 23% over traditional fans.

3D Active Fan

The semi-passive fans will remain off when the GPU is under a set loading or temperature for low power gaming. It allows gamers to enjoy gameplay in complete silence when the system is running light or idle.

Cooling System- Heat Pipes

Composite heat-pipes

The composite heat-pipes combines both thermal conductivity and phase transition for efficiently managing the transfer of heat between two solid interfaces which increases 29% of cooling capacity.

Heat Pipe Direct Touch

The pure copper heat pipes are shaped to maximize the direct contact area to the GPU.

Performance

One-click Super overclocking

With a simple click on XTREME engine utility, gamers can easily tune the card to meet their various gaming requirements without any overclocking knowledge, while saving the hassle of manual adjustment.

Durability

Ultra Durable Materials

Engineered with the highest-grade chokes and capacitors, this graphic card delivers outstanding performance and durable system lifespan.

Built for OverClocking with 5+1 power phases

Compared to founders edition, the 5+1 power phases on the card make the MOSFET working at a lower temperature and provide more stable voltage output. (*founders edition:4+1)

Intuitive XTREME Engine Utility

Xtreme Engine

Adjust clock speeds, voltage, fan performance, power target can be monitored and tuned in real-time according to your own preference through this intuitive interface. Download
(*The interface and functionality of the software is subject to each model.)