Intel SHG2 manual Replacing the Backup Battery, Removing a Processor

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Removing a Processor

1.Observe the safety and ESD precautions at the beginning of this chapter and the additional cautions given here.

2.Unplug the heat sink fan.

3.Detach the processor wind tunnel, if attached to the heat sink.

4.Detach the heat sink clip from the processor socket. See the documentation that shipped with your processor for more detail.

5.Remove the heat sink from the processor.

6.Raise the locking bar on the socket.

7.Remove the processor from the socket.

Replacing the Backup Battery

The lithium battery on the server board powers the RTC for up to 10 years in the absence of power. When the battery starts to weaken, it loses voltage, and the server settings stored in CMOS RAM in the RTC (for example, the date and time) may be wrong. Contact your customer service representative or dealer for a list of approved devices.

WARNING

Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the equipment manufacturer. Discard used batteries according to manufacturer’s instructions.

ADVARSEL!

Lithiumbatteri - Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri af samme fabrikat og type. Levér det brugte batteri tilbage til leverandøren.

ADVARSEL

Lithiumbatteri - Eksplosjonsfare. Ved utskifting benyttes kun batteri som anbefalt av apparatfabrikanten. Brukt batteri returneres apparatleverandøren.

VARNING

Explosionsfara vid felaktigt batteribyte. Använd samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren. Kassera använt batteri enligt fabrikantens instruktion.

VAROITUS

Paristo voi räjähtää, jos se on virheellisesti asennettu. Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin. Hävitä käytetty paristo valmistajan ohjeiden mukaisesti.

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Intel Server Board SHG2 Product Guide

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Contents Intel Server Board SHG2 Product Guide Disclaimer Contents Configuration Software and Utilities UpgradingTechnical Reference Solving ProblemsRegulatory and Integration Information Equipment Log Worksheet IndexTables Viii Server Board Features DescriptionBack Panel Connectors FG HServer Board Connector and Component Locations CC BB AA KK LL WV U T S RProcessor MemoryAdd-in Board Connectors VideoScsi Controller IDE ControllerModular RAID Capable PCI-X Slot USB InterfaceNetwork Teaming Features Network ControllersAdapter Fault Tolerance Adaptive Load BalancingSecurity Keyboard and MouseSecurity with Mechanical Locks and Monitoring Using Passwords Software LocksSecure Mode Summary of Software Security FeaturesDescription Server Board Installation Safety CautionsTools and Supplies Needed Before You BeginSafety and Regulatory Compliance Power SupplyMinimum Hardware Requirements ProcessorInstallation Procedures Installation NotesInstalling the I/O Gasket and Shield Attaching the Gasket to the I/O Shield Attaching the Label to the I/O ShieldInstalling the I/O Shield Installing the I/O ShieldInstalling Memory Dimm LocationsConfiguring Chassis Standoffs Installing MemoryInstalling the Server Board Placing the Server Board in the ChassisInstalling the Processors Installing the Retention BracketsOpening Socket Lever and Attaching Processor Apply thermal grease to the processor as shown Installing the Processor Wind Tunnel Attaching the Heat Sink and Retention ClipAttaching the Wind Tunnel Assembly Attaching the Wind Tunnel Intake and Exhaust Making Connections to the Server Board II JJ CC BBIntel SC5200 Hot-Swap, Redundant Power Server Chassis Note Cable Routing Intel SC5200 Base ChassisIntel SC5200 Base Server Chassis Note IDE or Scsi CablesCable Routing Intel SC5200 Hot-Swap, Redundant Power Chassis Floppy and Front Panel CablesInstalling the Serial B Cable Installing the Serial B CableFinishing Up Making Back Panel ConnectionsInstalling a Service Partition on the Server Optional Select Format Service Partition and Install SoftwareInstalling your Operating System Installing Intel Server ManagementInstalling Intel SMaRT Tool Make a Selection drop-down menu, select Install SMaRT ToolUpgrading Memory Processors Adding or Replacing a Processor Opening Socket Lever and Attaching Processor Apply thermal grease to the processor as shown Installing the Processor Wind Tunnel Attaching the Heat Sink Fan to the Air Intake Assembly Attaching the Wind Tunnel Intake and Exhaust Replacing the Backup Battery Removing a ProcessorReplacing the Back up Battery Intel Server Board SHG2 Product Guide Configuration Software and Utilities Hot KeysPower-On Self-Test Post Using Bios Setup Record Your Setup SettingsIf You Cannot Access Setup Starting SetupUsing the System Setup Utility Creating SSU DiskettesRunning the SSU Working with the GUISetting Boot Device Priority Setting Passwords and Security OptionsCustomizing the SSU Interface Exiting the SSUSetting the User Password Setting the Admin PasswordSetting Security Options Viewing the System Event Log Viewing FRU InformationUpdating the Bios Updating System Firmware and BiosViewing Sensor Data Records Saving and Restoring the System Configuration Saving a ConfigurationUpdating the Firmware Verifying the FirmwareRestoring a Configuration Setting Up Email AlertsSetting Up Paging Alerts Alerting for Platform EventsSetting Up LAN Alerts From the Options menu, choose Configure Event ActionsSetting Up Remote LAN Access Managing the Server RemotelySetting Up Remote Modem or Serial Access Frusdr Load Utility When to Run the Frusdr Load UtilityWhat You Need to Do Command Line Format Parsing the Command LineHow You Use the Frusdr Load Utility Displaying Usage InformationUsing Specified CFG File Displaying SM Bios AreaUpdating the SDR Nonvolatile Storage Area Upgrading the Bios Preparing for the UpgradeRecording the Current Bios Settings Obtaining the Upgrade UtilityUpgrading the Bios Creating the Bios Upgrade DisketteRecovering the Bios Changing the Bios LanguageUsing the Firmware Update Utility Making a BMC Firmware Update DisketteMaking the Update Diskette Bootable Updating the BMC FirmwareRecovering the BMC Firmware Making a FRU/SDR File Update DisketteUpdating the FRU/SDR Files Updating the FRU/SDR FilesUsing the Adaptec Scsi Utility Running the Scsi UtilitySolving Problems Resetting the SystemChecklist Initial System StartupRunning New Application Software After the System Has Been Running CorrectlyPreparing the System for Diagnostic Testing More Problem Solving ProceduresMonitoring Post Specific Problems and Corrective Actions Power Light Does Not LightVerifying Proper Operation of Key System Lights Confirming Loading of the Operating SystemNo Characters Appear on Screen Characters Are Distorted or IncorrectDiskette Drive Activity Light Does Not Light System Cooling Fans Do Not Rotate ProperlyHard Disk Drive Activity Light Does Not Light CD-ROM Drive Activity Light Does Not Light Problems with NetworkCannot Connect to a Server Bootable CD-ROM Is Not Detected Problems with Application SoftwarePCI Installation Tips Getting Help World Wide Web TelephoneIntel Server Board SHG2 Product Guide Technical Reference Server Board JumpersConfiguration Jumper CN27 Enabling PCI-X on Slot 6 and Disabling On-board ScsiProduct Safety Compliance Regulatory and Integration InformationProduct Regulatory Compliance Product EMC ComplianceProduct Regulatory Compliance Markings Electromagnetic Compatibility Notices FCC USAEurope CE Declaration of Conformity Taiwan Declaration of ConformityKorean RRL Compliance Australia / New ZealandEquipment Log Worksheet Equipment LogEquipment Log Bios IndexPCI Raidios 100 Intel Server Board SHG2 Product Guide

SHG2 specifications

Intel SHG2, short for Server High-Performance GPU 2, represents a significant evolution in graphics technology designed to meet the demanding requirements of data centers and high-performance computing applications. Developed to support a range of workloads, SHG2 is particularly optimized for artificial intelligence, machine learning, and data analytics.

One of the defining features of the Intel SHG2 is its impressive processing power. With numerous cores capable of parallel processing, it can execute multiple tasks simultaneously, leading to faster computation times. This architecture makes it incredibly efficient for applications that require heavy calculations and real-time data processing.

The SHG2 also embraces advanced fabrication technologies, moving to smaller nodes that enhance power efficiency while delivering higher performance. These innovations not only allow for improved thermal management but also contribute to the reduction of overall energy consumption, making the SHG2 a more environmentally friendly choice for server operations.

In terms of memory support, the SHG2 offers a robust configuration, accommodating high-bandwidth memory (HBM) that ensures quick access to critical data. This feature is essential for applications needing rapid data retrieval and integration, such as deep learning models where every millisecond counts.

Moreover, the SHG2 is built with compatibility in mind. It integrates seamlessly with existing Intel architectures, allowing organizations to leverage their current investments while upgrading their processing capabilities. This compatibility makes it easier for businesses to enhance their infrastructure without undergoing a complete overhaul of their systems.

Another salient characteristic of the Intel SHG2 is its support for virtualization. This allows multiple workloads to be handled simultaneously on a single GPU, maximizing resource utilization and enhancing overall system performance. As enterprises increasingly adopt cloud-based solutions, the ability to virtualize GPU resources becomes critical.

Security is also a major consideration in the design of the SHG2. Intel has incorporated various security features to ensure that data is protected against unauthorized access and vulnerabilities that could threaten system integrity.

As businesses increasingly turn to AI and machine learning to drive innovation, the Intel SHG2 positions itself as an essential tool for those looking to harness the power of advanced computing. With its impressive features, powerful performance, and forward-thinking design, is a strategic choice for organizations aiming to enhance their computational capabilities and meet the challenges of tomorrow's technological landscape.