Tyan Tempest (S5372) Server Motherboard - Intel 5000V Chipset - Socket J LGA-771

The Tyan Tempest S5372 is a purpose-built, 1U server motherboard crafted for dense data center deployments that demand reliable multi-processor performance. Built around the Intel 5000V chipset and Socket J LGA-771, this board enables dual Intel Xeon processors from the 5000/5100 series to work in harmony, delivering strong compute power for virtualization, databases, and enterprise-grade workloads. Its 1U form factor is designed for high-density racks without compromising on essential enterprise features such as expandability, memory reliability, and scalable I/O. With a thoughtful balance of CPUs, multi-channel memory, and flexible expansion options, the Tempest S5372 stands ready to underpin mission-critical applications in modern data centers, colocation facilities, and enterprise server rooms. The design prioritizes easy serviceability and compatibility with a wide ecosystem of chassis, cooling solutions, and storage controllers, so you can deploy with confidence and scale as your workloads evolve.

• 1U dual-processor architecture for dense compute - The Tempest S5372 maximizes rack density by supporting two Intel Xeon processors within a compact 1U platform, enabling multi-threaded workloads, virtualization, and data-intensive tasks to run in parallel without sacrificing valuable data center space.
• Intel 5000V chipset with Socket J LGA-771 - Fueled by the Intel 5000V platform, this motherboard is designed to handle dual Xeon CPUs from the 5000/5100 series, delivering efficient data paths, memory bandwidth, and robust I/O throughput in demanding enterprise environments.
• Flexible expansion with PCI-X and PCI-E slots - The Tempest S5372 provides a versatile mix of expansion channels to accommodate high-speed networking cards, storage controllers, and accelerator cards, enabling tailored configurations for virtualization, I/O acceleration, or large-scale database workloads.
• Reliable memory architecture with ECC protection - The board supports memory configurations that utilize ECC-protected DDR2 DIMMs across multiple channels, helping safeguard data integrity in mission-critical servers and reducing unplanned downtime.
• Enterprise-ready reliability and scalability - Engineered for data-center deployment, the Tempest S5372 emphasizes long-term reliability, robust airflow in 1U chassis, and straightforward expansion paths so your server ecosystem can grow alongside your business needs.

Technical Details of Tyan Tempest (S5372)

• Chipset: Intel 5000V
• CPU Sockets: 2 x LGA-771 (Socket J)
• Supported Processors: Dual Intel Xeon 5000/5100 series processors
• Memory: Supports multi-channel DDR2 ECC registered memory with distributed memory channels for dual-processor configurations
• Expansion: PCI-X and PCI-E expansion slots for high-speed networking, storage controllers, and accelerator cards
• Form Factor: 1U rack-optimized motherboard designed for dense data-center deployments

how to install Tyan Tempest (S5372) Server Motherboard

Preparing for installation begins with confirming compatibility and planning the chassis, power supply, and cooling strategy. Start by verifying that your 1U chassis supports the Tempest S5372’s dimensions and mounting points, and that your power supply can deliver enough rail capacity for dual Xeon CPUs and any planned PCI-X/PCIe cards. Ensure you have a clean workspace, static-safe tools, and the correct thermal solution for LGA-771 processors. While handling the motherboard, ground yourself to avoid electrostatic discharge that could damage components. With those precautions in place, you can begin the installation sequence:

Step 1: Install CPU coolers and attach CPUs. Open the CPU sockets (LGA-771) and install each Xeon processor according to the socket alignment marks. Apply a suitable thermal interface material if required by the cooler and firmly secure each CPU cooler to ensure consistent thermal contact. Double-check that socket latches are fully seated and that fans will have unimpeded airflow across the heat sinks.

Step 2: Install memory modules. Insert DDR2 ECC registered DIMMs into the designated memory channels per CPU, ensuring the modules click firmly into place and are seated evenly. Abide by the board’s memory population guidelines to maximize bandwidth and stability. Avoid mixing memory types or speeds beyond what the chipset supports to prevent compatibility issues.

Step 3: Mount the motherboard in the chassis. Align the I/O shield with the chassis backplane and secure the motherboard with the appropriate standoffs. Route power cables and data cables cleanly to minimize airflow disruption and to simplify future maintenance. Connect the 24-pin main power connector and the 4/8-pin CPU power connectors, ensuring they’re firmly seated for stable startup and reliable operation.

Step 4: Install expansion cards and storage controllers. Insert PCI-X and PCI-E cards into the available expansion slots, applying even pressure to ensure all contacts are properly seated. If you’re adding storage controllers or network adapters, mount them securely and connect any required external cables. Maintain tidy cabling to promote airflow and reduce heat buildup within the 1U chassis.

Step 5: Connect I/O and onboard management interfaces. Attach any onboard or discrete network interfaces, USB devices, and management headers as required by your deployment. Confirm that all fans are connected and functioning, and verify that the chassis sensors (temperature, voltage, current) are correctly monitored by the system management tools available in your operating environment.

Step 6: BIOS configuration and initial boot. Power on and enter the BIOS/UEFI setup to configure CPU multipliers, memory timings, and any enterprise features such as virtualization extensions or PCIe lane assignments. Ensure the system recognizes both CPUs and all installed memory. Save your settings, exit, and allow the system to boot to the operating system installer or your preferred OS deployment method. Post-boot, install or configure server management utilities and drivers to ensure monitoring, firmware updates, and remote management capabilities are in place from day one.

Step 7: Validation and optimization. Run baseline hardware diagnostics to verify CPU, memory, and IO stability. Validate network connectivity and storage performance, and tune BIOS and OS-level settings to optimize for your specific workload, whether that’s virtualization, databases, or high-throughput computing. Plan for ongoing firmware updates and security patches to maintain reliability and security in productive environments.

By following these steps, you’ll enable a smooth integration of the Tyan Tempest S5372 into a 1U server environment, delivering dependable performance for multi-processor workloads while keeping maintenance simple and predictable. Remember that each deployment is unique; tailor BIOS and OS configurations to match the exact mix of CPUs, memory, PCI cards, and storage devices in your configuration to achieve the best balance of speed, stability, and energy efficiency.

Frequently asked questions

• Q: What CPUs does the Tempest S5372 support? A: It supports dual Intel Xeon processors from the 5000 and 5100 series on the LGA-771 Socket J platform, enabling robust multi-core performance for virtualization and enterprise workloads.
• Q: What type of memory can I use? A: The board is designed for multi-channel memory with ECC memory support. DDR2 ECC registered DIMMs are commonly used in this generation, configured in a way that aligns with the dual-CPU memory channels.
• Q: What expansion options are available? A: The S5372 includes PCI-X and PCI-E expansion slots to accommodate high-speed network adapters, storage controllers, and accelerators, enabling flexible scalability for varied workloads.
• Q: Is this motherboard suitable for dense data-center deployments? A: Yes. The 1U form factor is optimized for dense racks, and the board’s design emphasizes reliability, efficient cooling, and straightforward maintenance for data-center environments.
• Q: How do I install and configure this motherboard? A: Installation involves mounting in a compatible 1U chassis, seating dual Xeon CPUs and ECC memory, adding PCI-X/PCIe cards as needed, connecting power and I/O, and then configuring BIOS/firmware and OS settings to suit your workload. Always consult the motherboard’s manual for exact jumper, voltage, and timing settings specific to your SKUs and firmware revisions.