Skip to product information
1 of 2

Gigabyte MB B660M AORUS PRO AX DDR4 B660 LGA1700 Max128GB DDR4 mATX Retail

Gigabyte MB B660M AORUS PRO AX DDR4 B660 LGA1700 Max128GB DDR4 mATX Retail

SKU:261006

Regular price $272.98 CAD
Regular price Sale price $272.98 CAD
Sale Backorder

B660M AORUS PRO AX DDR4

PERFORMANCE UNLEASHED


Rule supreme with the B660 AORUS gaming motherboards. The new king of gaming platform continues the legendary AORUS bloodline with the most robust power delivery and dominant thermal design, glorified with the complete memory overclocking technology to crown your PC with the best Alder Lake's performance in all its gaming glory.


UNPARALLELED PERFORMANCE

With technology moving so fast, GIGABYTE still keep up with the latest trends and provide our customers with advanced features and latest technology. GIGABYTE B660 Series motherboards come with upgraded power solution, latest storage standards and outstanding connectivity to enable optimize performance for gaming.


Shielded Memory Routing

All memory routing is under the PCB inner layer shielded by a large ground layer to protect from external interference.


Dual PCIe 4.0 x4 M.2

GIGABYTE B660 Motherboards are focused on delivering M.2 technology to enthusiasts who want to maximize their system's potential.


Hybrid Cores Optimization

With new Intel Hybrid technology, GIGABYTE exclusively creates two new "CPU Upgrade" in BIOS profiles to meet different users’ scenarios by adjusting P-Core and E-Core activation and voltage policy.


ADVANCED THERMAL SOLUTION

GIGABYTE B660 Series Motherboards' Un-throttled performance is guaranteed by innovative and optimized thermal design to ensure the best CPU, Chipset, SSD stability and low temperatures under full load application and gaming.


GIGABYTE Ultra-Efficient M.2 Thermal Guard

With durability in mind, GIGABYTE provides a thermal solution for M.2 SSD devices. The M.2 Thermal Guard prevents throttling and bottlenecks from high speed M.2 SSDs as it helps to dissipate heat before it becomes an issue.

View full details