Asus Prime H51OM-E
Asus Prime H51OM-E
The Intel® H510 micro ATX motherboard is a powerhouse of modern features tailored for high-performance computing enthusiasts. Engineered with an Intel® LGA 1200 socket, it supports both 11th and 10th Gen Intel® processors, ensuring compatibility and future-proofing for your computing needs. Whether you're upgrading or building anew, this motherboard provides the foundation for robust processing power.
Harnessing ultrafast connectivity, it boasts PCIe 4.0 capabilities, facilitating lightning-fast data transfer rates. The 32Gbps M.2 slot further enhances speed, ideal for accommodating high-speed SSDs and reducing load times for applications and games. Integrated Intel® 1 Gb Ethernet ensures seamless networking, while USB 3.2 Gen 1 Type-A ports deliver rapid data transfer for peripherals.
To maintain optimal performance under heavy workloads, the motherboard includes comprehensive cooling features. A dedicated PCH heatsink and Fan Xpert technology ensure efficient heat dissipation, safeguarding components from overheating and prolonging their lifespan. This robust cooling solution is crucial for maintaining system stability during intense gaming sessions or demanding professional tasks.
For enhanced reliability, the Intel® H510 micro ATX motherboard incorporates 5X Protection III. This includes multiple hardware safeguards such as overvoltage protection and circuit-level surge protection, ensuring all-round security and durability for your components. These safeguards contribute to a worry-free computing experience, reducing the risk of damage from electrical fluctuations or other unforeseen events.
Whether you're a gamer seeking seamless performance or a professional requiring reliability and speed, the Intel® H510 micro ATX motherboard stands as a versatile choice. With its advanced features, compatibility with cutting-edge Intel® processors, and robust protection mechanisms, it's designed to elevate your computing experience to new heights, making it an ideal choice for diverse computing applications.