New 10+2 Phases Digital PWM Design
High Quality Audio Capacitors
Dual Ultra-Fast M.2 with PCIe Gen3 X4 & SATA interface
Multi-Way Graphics Support with PCIe Armor and Ultra Durable™ Design
Intel® Native USB 3.1 Gen2 Type-A + Type-C
Intel® GbE LAN with cFosSpeed Internet Accelerator Software
Ultra Durable™ 25KV ESD and 15KV Surge LAN Protection
Support RGB Lighting Effect in Full Colors
CEC 2019 Ready, Save Power With a Simple Click
Smart Fan 5 features Multiple Temperature Sensors and Hybrid Fan Headers with FAN STOP
Lightning-Fast Intel® Thunderbolt™ 3 AIC Support
Intel® Optane™ Memory Ready
Optimized for 8-Core Intel® Core™ CPU
GIGABYTE GAMING series motherboards use a 10*+2 phase PWM+ Lower RDS(on) MOSFETs design to support the latest 8-core Intel® Core™ CPUs by offering incredible precision in delivering power to the motherboard’s most power- hungry and energy-sensitive components as well as delivering enhanced system performance and ultimate hardware scalability.
2-Way CrossFire™ Multi-Graphics
Multi-graphics configuration offers better graphics performance for gaming enthusiasts who demand the highest frame rates without compromising on resolution.
Support RGB Lighting Effect in Full Color
Personalize your next PC rig to your liking by selecting the color of your choice to illuminate the external RGB light strip.
High-End Audio Capacitors
GIGABYTE motherboards use high-end audio capacitors. These high quality capacitors help deliver high resolution and high fidelity audio to provide the most realistic sound effects for gamers.
Audio Noise Guard
GIGABYTE motherboards feature an audio noise guard that essentially separates the board’s sensitive analog audio components from potential noise pollution at the PCB level. LED trace path lighting Illuminates to show the separation of the PCB layers.
Intel® GbE LAN with cFosSpeed Internet Accelerator Networking
Intel® GbE LAN features cFosSpeed, a network traffic management application which helps to improve network latency and maintain low ping times to deliver better responsiveness in crowded LAN environments.