Gigabyte B365M HD3 9th Gen Motherboard
The Gigabyte B365M HD3 Micro ATX ultra durable motherboard compatible with Intel 9th and 8th gen core i3, i5 i7 and i9 processor with supported Dual Channel DDR4 maximum 32GB memory motherboard has the capability of Ultra-Fast M.2 with PCIe Gen3 X4 & SATA interface. Considering the graphics, it will support integrated Intel HD Graphics having 1GB shared graphics memory with max resolution of 1920 x 1200 @ 60 Hz DVI-D & D-Sub port and 4096x2160@30 Hz of HDMI ports. This latest motherboard has the facility of USB 3.1 Gen 1 ports, USB 2.0/1.1 ports and Intel Optane Memory Ready. For extreme level of gaming it has GIGABYTE 8118 Gaming LAN, PCIe Gen3 x4 M.2 and Smart Fan 5.
High Speed Gigabit LAN with Automatic Bandwidth Allocation
Realtek 8118 LAN is a high performance and friendly network chip for gaming players with automatic bandwidth allocation to ensure the highest network priority of the game or application. It can provide users the most comprehensive features and the fastest and smoothest Internet experience.
Smart Fan 5
Gigabyte B365M HD3 Motherboard UseWith Smart Fan 5 users can ensure that their gaming PC can maintain its performance while staying cool. Smart Fan 5 allows users to interchange their fan headers to reflect different thermal sensors at different locations on the motherboard. Not only that, with Smart Fan 5 more hybrid fan headers that support both PWM and Voltage mode fans have been introduced to make the motherboard more liquid cooling friendly.
Hybrid Fan Pin Headers
Assume complete control over your liquid cooling setup! Smart Fan 5 receives up-to-the-second information on flow-rate through the Hybrid Fan Pin Headers—giving you absolute mastery over your PC. All Hybrid Fan Headers can automatically detect the type of cooling device whether it be fan or pump with different PWM or Voltage mode.
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.