Supermicro X10SDV-TLN4F Server Motherboard - Intel Xeon D-1500 SoC, Mini ITX

The Supermicro X10SDV-TLN4F is a compact, enterprise-grade server motherboard designed for edge, embedded, and small data center workloads. Powered by an Intel Xeon D-1500 Series System-on-a-Chip (SoC) integrated on a BGA-1667 package, this Mini ITX board delivers server-class performance in a space-saving footprint. Built with an Intel chipset and a focus on reliability, efficiency, and flexible I/O, the X10SDV-TLN4F is ideal for network appliances, edge computing, small-scale virtualization, and compact storage nodes where power, space, and cooling are at a premium. Its rugged design and streamlined layout support long-term deployments in remote or harsh environments without sacrificing enterprise features or manageability.

• Compact Mini ITX form factor with an optimized layout that fits dense enclosures, remote locations, and quiet office environments while delivering robust server performance.
• Intel Xeon D-1500 Series SoC with integrated features for security, virtualization, and efficiency, enabling reliable 24/7 operation for edge and embedded workloads.
• CPU packaged on a BGA-1667 with an Intel chipset designed for embedded, server-grade platforms, delivering a stable foundation for long-term deployments and consistent updates.
• Flexible I/O and expansion options, including PCIe lanes, storage interfaces, and networking capabilities to support diverse configurations—from firewall appliances to small-scale storage gateways.
• Ideal for a wide range of applications, including edge computing, network appliances, content caching, and compact virtualization nodes, all within a small form factor.

Technical Details of X10SDV-TLN4F

• SKU: X10SDV-TLN4F
• Processor: Intel Xeon D-1500 Family System-on-a-Chip (SoC) integrated on the board
• Chipset/Platform: Intel embedded chipset designed to support Xeon D-based workloads
• Form Factor: Mini ITX motherboard
• CPU Socket/Package: BGA-1667 (Xeon D-1500 SoC)
• Memory: Supports ECC memory (specific capacities and channels vary by SKU)
• Expansion & I/O: PCIe expansion, multiple storage interfaces, USB, and onboard networking options suitable for embedded and edge deployments
• Networking: Onboard connectivity tailored for embedded use cases, with room for additional NICs as needed

how to install X10SDV-TLN4F

• Power down the system, unplug from all power sources, and discharge any static electricity before handling the motherboard.
• Mount the X10SDV-TLN4F in a compatible Mini ITX chassis, aligning standoffs and securing with screws for a stable, vibration-resistant installation.
• Install required memory modules (if applicable for your configuration) and ensure proper seating in the DIMM sockets, following the board’s memory guidelines.
• Connect power cables, cooling solutions, and any other required peripherals. Ensure adequate airflow within the chassis to maintain optimal temperatures during operation.
• Attach storage devices and configure networking interfaces as needed. Power up the system, enter BIOS/UEFI, and set boot order, virtualization features, and any security options for the intended workload.

Frequently asked questions

• What is the primary use case for the X10SDV-TLN4F? It is designed for embedded servers, edge computing, network appliances, and compact data center deployments where a small footprint and enterprise-grade performance matter.
• What kind of memory does it support? The board supports ECC memory typical of Xeon D-based platforms; refer to official specifications for exact capacities and memory configurations for your SKU.
• Is the Xeon D-1500 SoC integrated on the motherboard? Yes, the Xeon D-1500 Series is integrated as an on-board System-on-a-Chip, delivering server-grade compute without a separate CPU socket.
• Does it include onboard networking? The X10SDV-TLN4F provides onboard networking suitable for embedded deployments, with expansion options available for additional NICs as needed.
• Is this board suitable for virtualization? Yes, Xeon D-1500 SoCs support virtualization features; performance will depend on memory, I/O configuration, and workload characteristics.