SUPER MICRO Computer H8SCM PCI Expansion Cards, Per Channel Dimm Populations Options, Dimm Type

Page 29

Chapter 2: Installation

DIMM Module Population Configuration

For memory to work properly, follow the tables below for memory installation:

Per Channel DIMM Populations Options

DIMM Type

DIMM A

DIMM B

Max. MHz,

Max. MHz,

Max. GB/

 

 

 

1.5V DIMMs

1.35V DIMMs

Channel

 

 

 

 

(6-core Only)

 

Unbuffered

SR or DR

Empty

1600 MHz

1333 MHz

8GB

SR

SR

 

 

 

DIMM

1333 MHz

1333 MHz

8 GB

(UDIMM)

DR

DR

1066 MHz

1066 MHz

16 GB

 

 

 

 

 

 

 

 

SR or DR

Empty

1600 MHz

1333 MHz

16 GB

Registered

SR

SR

1333 MHz

1333 MHz

16 GB

DR

DR

 

 

 

DIMM

1066 MHz

1066 MHz

32 GB

(RDIMM)

QR

Empty

1333 MHz

1066 MHz

32 GB

 

 

QR

QR

800 MHz

800 MHz

64 GB

 

 

 

 

 

 

Note 1: Due to OS limitations, some operating systems may not show more than 4 GB of memory.

Note 2: Due to memory allocation to system devices, the amount of memory that remains available for operational use will be reduced when 4 GB of RAM is used. The reduction in memory availability is disproportional.

2-6 PCI Expansion Cards

A riser card is used to support one standard size (full height full length) PCI expansion card.

Installing a PCI Expansion Card

1.Confirm that you have the correct riser card for your chassis model and the add-on card includes a standard bracket.

2.Remove the chassis cover.

3.Install the riser card by sliding card into the appropriate slot in the serverboard.

4.Choose the PCI slot shield in which to place the add-on card.

5.In that slot, open the PCI slot shield lever and slide the shield sideways.

6.From inside the chassis, remove the PCI slot shield.

7.Slide the add-on card into the riser card and attach the add-on card bracket in place of the PCI slot shield.

8.Secure the add-on card by closing the PCI slot shield lever.

9.Connect cables to the add-on card as necessary.

2-9

Image 29
Contents Super Page Manual Organization About This ManualTable of Contents Sgpio Bios Overview ChecklistHeadquarters Contacting SupermicroEurope Asia-PacificH8SCM-F Image H8SCM-F Serverboard Layout H8SCM-F Quick Reference Default SettingJumper DescriptionConnector Memory Serverboard FeaturesChipset Expansion SlotsDimensions Acpi FeaturesOnboard I/O OtherAMD SR5650/SP5100 Chipset System Block Diagram PC Health Monitoring Chipset OverviewAMD SR5650/SP5100 Chipset HyperTransport TechnologyPower Configuration Settings Wake-On-LAN WOL Power SupplyMain Switch Override Mechanism Super I/O Page About Standardized Warning Statements Battery HandlingStandardized Warning Statements Page 製品の廃棄 Product DisposalPage Triangles Processor and Heatsink InstallationInstalling the Heatsinks Mounting the Serverboard into a Chassis Installing MemoryMemory Population for Optimal Performance Memory SupportMaximum Memory Per Channel Dimm Populations Options PCI Expansion CardsDimm Type Max. MHz Max. GB 5V DIMMs 35V DIMMsFront Control Panel I/O Port and Control Panel ConnectionsPower Connectors Connector DefinitionsPower Connector Reset ConnectorOverheat/Fan Fail LED OH Power Fail LEDNIC2 Activity LED NIC1 Activity LEDNMI Button Power On LEDLAN1/2 Ethernet Ports Universal Serial Bus PortsUSB Headers Chassis IntrusionSerial Ports Fan HeadersPower SMB Pin Definitions JPI2C1 Power SMB I2C ConnectorTrusted Platform Module Header Sgpio Header Pin DefinitionsATX PS/2 Keyboard and PS/2 Mouse Ports Power LED/SpeakerCompact Flash Card PWR Connector Overheat LED Video ConnectorWake-On-LAN Jipmb H8SCM-F onlyCmos Clear Jumper SettingsExplanation of Jumpers VGA Enable/Disable LAN1/2 Enable/DisableWatch Dog Enable/Disable Compact Flash Master/Slave SelectBMC Jumper Onboard Speaker Enable/DisableI2C to PCI-Express Slot Glan LEDs Onboard IndicatorsIpmi Dedicated LAN LEDs BMC Heartbeat LEDSata Ports Power LEDIDE and Sata Drive Connections IDE Drive Connector Pin Definitions IDE#1 IDE ConnectorSerial ATA Sata Installing the OS/SATA DriverEnabling Sata RAID Bios Setup Screen Enabling Sata RAID in the BiosDotHill RAID Utility Program Screen Installing the RAID Driver During OS Installation Using the DotHill and Adaptec RAID UtilityDriver/Tool Installation Display Screen Installing DriversSupero Doctor Supero Doctor III Interface Display Screen Remote Control 10. Installing the Onboard Battery Serverboard BatteryPage No Power Troubleshooting ProceduresBefore Power On Memory Errors Technical Support ProceduresLosing the System’s Setup Configuration No VideoQuestion How do I update my BIOS? Frequently Asked QuestionsQuestion What type of memory does my motherboard support? Question Whats on the CD that came with my motherboard?Returning Merchandise for Service Introduction Starting the Setup UtilityMain Menu Advanced Settings Menu Boot Feature  Processor and Clock Options Microcode Update Gart Error ReportingSecure Virtual Machine Mode Power Now ECC Configuration  Advanced Chipset Control  NorthBridge Configuration Memory Configuration  Dram Timing Configuration  IDE ConfigurationPrimary/Secondary/Third/Fourth IDE Master/Slave DMA Mode PIO ModeIDE Detect Timeout Sec A.R.T PCI/PnP Configuration  SuperIO Device Configuration  Remote Access Configuration Hardware Health Configuration CPU Temperature Display CTD  Trusted Computing  Acpi ConfigurationSet LAN Configuration  Ipmi ConfigurationView BMC System Event Log  Event Log Configuration Boot Device Priority Boot MenuSecurity Menu Hard Disk DrivesRemovable Drives Exit MenuPage Beep Code Error Message Description Amibios Error Beep CodesPage Checkpoint Code Description Uncompressed Initialization CodesCheckpoint Bootblock Recovery CodesUncompressed Initialization Codes Checkpoint Checkpoint Code Description Checkpoint Code Description

H8SCM, H8SCM-F specifications

Super Micro Computer, known for its cutting-edge server technology and enterprise solutions, offers the H8SCM-F and H8SCM motherboards as part of its robust line of products designed for high-performance computing tasks. These motherboards are ideal for businesses that require reliable, scalable, and cost-effective solutions for their data center and server needs.

The H8SCM-F and H8SCM motherboards are based on the AMD Opteron architecture, which delivers an impressive performance-to-cost ratio. They support dual-socket configurations, accommodating up to 16 cores in a single system, which is ideal for handling intensive processing demands. This allows organizations to run virtualization software, database applications, and other resource-heavy tasks with ease.

One of the standout features of the H8SCM-F motherboard is its extensive memory support. It can accommodate up to 512GB of DDR3 memory across eight DIMM slots. This high memory capacity enhances performance, particularly in data-intensive applications, ensuring that users can run multiple processes without facing bottlenecks.

The H8SCM series motherboards also emphasize connectivity. With integrated features such as dual Gigabit Ethernet ports, they support effective bandwidth management. Additionally, the presence of multiple PCI-E slots enables users to incorporate various expansion cards for enhanced connectivity options, including additional network interfaces and high-performance storage controllers.

In terms of storage, the H8SCM-F motherboard offers support for multiple SATA drives, facilitating RAID configurations for improved data redundancy and performance. The ability to implement RAID 0, 1, 5, and 10 provides users with flexibility and security for their data storage needs.

Another key technology integrated into the H8SCM series is advanced thermal management. Supermicro has designed these motherboards with careful attention to airflow and cooling solutions, ensuring that systems remain stable under heavy workloads. This is particularly vital in environments where uptime is critical.

In summary, the Super Micro Computer H8SCM-F and H8SCM motherboards are designed with high-performance, scalability, and reliability in mind. Their support for powerful AMD Opteron processors, substantial memory capacity, extensive connectivity options, and advanced storage and thermal management features make them an excellent choice for businesses seeking efficient server solutions. Whether for virtualized environments or high-demand applications, these motherboards deliver exceptional performance and versatility to meet a wide range of enterprise needs.