SUPER MICRO Computer H8DI3+-F, H8DII+-F user manual Mounting the Serverboard into a Chassis

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H8DI3+/I+(-F) Serverboard User's Manual

2-3 Mounting the Serverboard into a Chassis

All motherboards have standard mounting holes to fit different types of chassis. Make sure that the locations of all the mounting holes for both the serverboard and the chassis match. Although a chassis may have both plastic and metal mounting fasteners, metal ones are highly recommended because they ground the serverboard to the chassis. Make sure that the metal standoffs click in or are screwed in tightly.

Check the Compatibility of the Serverboard Ports and the I/O Shield

1.The H8DI3+/I+(-F) Serverboard serverboard requires a chassis that can support a board of 16.64" x 6.8" in size. It was designed to be used in a Supermicro 1U Twin system.

2.Make sure that the I/O ports on the serverboard align with their respective holes in the I/O shield at the rear of the chassis.

Mounting the Serverboard onto the Tray in the Chassis

1.Carefully mount the serverboard onto the serverboard tray by aligning the serverboard mounting holes with the raised metal standoffs in the tray.

2.Insert screws into all the mounting holes in the serverboard that line up with the standoffs.

3.Then use a screwdriver to secure the serverboard to the mainboard tray - tighten until just snug (if too tight you might strip the threads). Metal screws provide an electrical contact to the serverboard ground to provide a continuous ground for the system.

 

!

Exercise extreme caution when installing or removing memory mod-

 

ules to prevent any possible damage.

 

 

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Installing Memory

Installing Memory

1.Insert each memory module vertically into its slot, paying attention to the notch along the bottom of the module to prevent inserting the module incorrectly (see Figure 2-1).

2.Install to slots CPU1/DIMM1A and CPU1/DIMM1B first, then to CPU1/ DIMM2A and CPU1/DIMM2B, etc. Always install in pairs and in the numerical order of the DIMM slots. See support information below.

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Contents Super Page About This Manual H8DI3+-FManual Organization Table of Contents Sgpio Bios Viii Checklist OverviewEurope Contacting SupermicroHeadquarters Asia-PacificH8DI3+/I+-F Serverboard Image SLOT1 SLOT2 Jumper Description Default Setting H8DI3+/I+-F Serverboard Quick ReferenceConnector Description COM1/COM2Chipset Serverboard FeaturesMemory Expansion SlotsOnboard I/O Acpi FeaturesDimensions OtherSR5690 AMD SR5690/SP5100 Processor Chipset OverviewPC Health Monitoring HyperTransport TechnologyPower Configuration Settings Wake-On-Ring Header WOR Power SupplyWake-On-LAN WOL Super I/O H8DI3+/I+-F Serverboard User’s Manual Installation Processor and Heatsink Installation TrianglesInstalling the Heatsinks Mounting the Serverboard into a Chassis Mounting the Serverboard onto the Tray in the ChassisMaximum Memory To InstallSupport To RemoveInstalling a PCI Expansion Card PCI Expansion CardsRear I/O Ports I/O Port and Control Panel ConnectionsFront Control Panel Pwon Connector Connector DefinitionsPower Connectors Reset ConnectorLAN1/2 Ethernet Ports Power On LEDNMI Button Fan Headers Universal Serial Bus PortsUSB Headers Serial PortsWake-On-LAN Power I2CSMBus Header Overheat LEDATX PS/2 Keyboard and PS/2 Mouse Ports Power LED/SpeakerChassis Intrusion ButtonCompact Flash Card PWR Connector Jumper SettingsCompact Flash Card PWR Connector Explanation of JumpersI2C to PCI-Express Slot Watch Dog Enable/DisableVGA Enable/Disable PCI-X Slot Frequency SelectionSAS RAID Mode Select LAN1/2 Enable/DisableSAS Enable/Disable Compact Flash Master/Slave SelectLAN1/LAN2 LEDs Onboard IndicatorsPower LED Dedicated Ipmi LAN LEDsFloppy, SAS and Sata Drive Connections IDE ConnectorsIDE Drive Connector Pin Definitions IDE#1 SAS Ports Floppy Drive ConnectorSata Ports Serial ATA Sata Installing the OS/SATA DriverEnabling Sata RAID Enabling Sata RAID in the Bios Using the Adaptec RAID Utility Installing the RAID Driver During OS InstallationInstalling Drivers Driver/Tool Installation Display ScreenSupero Doctor Supero Doctor III Interface Display Screen Remote Control No Power Troubleshooting ProceduresBefore Power On No Video Memory ErrorsLosing the System’s Setup Configuration Question How do I update my BIOS? Technical Support ProceduresFrequently Asked Questions Question What type of memory does my serverboard support?Returning Merchandise for Service Question Whats on the CD that came with my serverboard?Starting the Setup Utility IntroductionMain Menu Advanced Settings MenuBoot Feature Processor & Clock Options Advanced Chipset Control NorthBridge Configuration Memory ConfigurationECC Configuration Dram Scrub Redirect Dram ECC EnableBit ECC Mode Dram BG ScrubSouthBridge Configuration Dram Timing ConfigurationRD890 Configuration PCI Express ConfigurationPowerdown Unused Lanes NB-SB Port Features NB-SB Link ApsmGPP Core Settings Hot Plug SupportHyper Transport Configuration IDE/Floppy Configuration Primary/Secondary/Third/Fourth IDE Master/Slave ChannelBlock Multi-Sector Transfer PIO ModeDMA Mode A.R.TPCI/PnP Configuration Super IO Device Configuration Remote Access Configuration Acpi Configuration Hardware Health ConfigurationSystem Fan Monitor IP Address Source Ipmi Configuration View BMC System Event LogSet LAN Configuration Subnet Mask Event Log ConfigurationIP Address Gateway AddressBoot Menu Security MenuExit Menu Amibios Error Beep Codes Beep Code Error Message DescriptionH8DI3+/I+-F Serverboard User’s Manual Uncompressed Initialization Codes Checkpoint Code DescriptionBootblock Recovery Codes Uncompressed Initialization Codes To test memory next Appendix B Bios Post Checkpoint Codes H8DI3+/I+-F Serverboard User’s Manual

H8DII+, H8DI3+, H8DII+-F, H8DI3+-F specifications

Super Micro Computer, a leader in high-performance server solutions, offers a range of motherboards designed for demanding enterprise applications. Notable models include the H8DI3+-F, H8DII+-F, H8DI3+, and H8DII+. These motherboards incorporate advanced technologies tailored for reliability, flexibility, and scalability, making them ideal for data centers, virtualization, and high-performance computing tasks.

The H8DI3+-F and H8DII+-F motherboards are optimized for dual AMD Opteron processors, delivering exceptional processing power with support for both single and dual-socket configurations. This flexibility allows users to tailor their systems according to specific application needs, whether they require a compact setup or a more extensive, scalable infrastructure.

Key features include support for DDR4 memory, which enhances bandwidth and energy efficiency. The H8DI3+-F and H8DII+-F motherboards support up to 1TB of RAM through 16 DIMM slots, enabling the hosting of memory-intensive applications with ease. This is complemented by advanced error-correcting code (ECC) memory support, ensuring data integrity and stability in mission-critical environments.

Both motherboards include several PCIe slots, facilitating the integration of high-performance GPUs and storage solutions. This modularity is crucial for businesses looking to harness the power of GPU computing for tasks such as artificial intelligence, machine learning, and data analytics.

Storage options are robust, with support for multiple 2.5” or 3.5” drives and RAID configurations, allowing for rapid data access and redundancy. These features ensure that organizations can maintain high availability and minimize downtime.

Additionally, the H8DI3+ and H8DII+ models boast integrated dual 10Gb/s Ethernet ports for high-speed network connectivity, essential for optimizing data transfers and ensuring seamless communication across distributed systems.

In terms of reliability, Super Micro emphasizes military-grade components and extensive testing, providing peace of mind to users in critical environments. Each model supports comprehensive management features, including remote access capabilities and thermal monitoring, contributing to reduced operational costs.

Overall, Super Micro's H8DI3+-F, H8DII+-F, H8DI3+, and H8DII+ motherboards represent the pinnacle of server technology, combining robust performance, extensive scalability, and innovative features designed to address the evolving demands of modern enterprise computing. These motherboards are ideal for organizations seeking powerful, flexible systems that can adapt to future technological advancements.
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