MSI PRO X870-P WIFI Motherboard - LGA 1718, DDR5, PCIe 5.0, ATX

The MSI PRO X870-P WIFI Motherboard is designed to provide exceptional performance for AMD's Ryzen™ 9000, 8000, and 7000 Series processors. This ATX motherboard features the advanced AMD X870 chipset and is equipped with cutting-edge technologies tailored for gamers and professionals.Key Features:

• Processor Compatibility:
  • Supports AMD Ryzen™ 9000, 8000, and 7000 Series Desktop Processors using the AM5 socket.
• Chipset:
  • AMD X870 chipset for enhanced performance and features.
• Memory Support:
  • Slots: 4 x DDR5 UDIMM slots
  • Maximum Capacity: Up to 256GB
  • Speed Support:
    • Supports DDR5 memory speeds of up to 8200+ MT/s (OC), with various lower frequencies supported.
• Expansion Slots:
  • PCIe Slots:
    • 1 x PCIe 5.0 x16 slot (with Steel Armor)
    • 1 x PCIe 4.0 x16 slot
    • 2 x PCIe 3.0 x1 slots.
• Storage Options:
  • M.2 Slots:
    • 1 x Gen5 x4 (128Gbps) slot with EZ M.2 Shield Frozr II
    • 1 x Gen4 x4 (64Gbps) slot
    • 1 x Gen4 x2 (32Gbps) slot.
• Networking:
  • LAN Controller: Realtek RTL8126VB providing 5G LAN for reliable wired connectivity.
  • Wi-Fi: Integrated Wi-Fi 7 solution for fast wireless connections, supporting multi-gigabit speeds.
• Audio Features:
  • Realtek® ALC897 Codec providing high-definition audio quality with support for up to 7.1-channel audio.

Advanced Features

• 14+2+1 Duet Rail Power System:
  • Designed to handle heavy CPU loads with dual CPU power connectors and digital PWM IC for improved stability and performance.
• Frozr Design:
  • Extended heatsink design with high-efficiency thermal pads and EZ M.2 Shield Frozr II to enhance cooling performance.
• EZ DIY Features:
  • Includes EZ M.2 Clip II, EZ PCIe Clip II, and EZ Antenna for easy installation and setup.

Design and Build Quality

The PRO X870-P WIFI features a sleek ATX form factor that ensures efficient heat dissipation while providing ample space for high-performance components. Its robust construction guarantees stability and longevity in demanding environments.