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HP Apollo 2000 System User Guide

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1. Select Embedded Applications gt Firmware Update System ROM Select Firmware File Select the device containing the flash file Select the flash file This step may take a few moments to complete Select Start firmware update and allow the process to complete Reboot the node A reboot is required after the firmware update for the updates to take effect and for hardware stability to be maintained Online Flash components This component provides updated system firmware that can be installed directly on supported Operating Systems Additionally when used in conjunction with HP SUM HP Smart Update Manager on page 148 this Smart Component allows the user to update firmware on remote servers from a central location This remote deployment capability eliminates the need for the user to be physically present at the server to perform a firmware update Drivers IMPORTANT Always perform a backup before installing or updating device drivers The node includes new hardware that may not have driver support on all OS installation media If you are installing an Intelligent Provisioning supported OS use Intelligent Provisioning on page 146 and its Configure and Install feature to install the OS and latest supported drivers Software and configuration utilities 155 If you do not use Intelligent Provisioning to install an OS drivers for some of the new hardware are required These drivers as well as other option drivers ROM im
2. VCRM manages the repository for SPP Administrators can view the SPP contents or configure VCRM to automatically update the repository with internet downloads of the latest software and firmware from HP e VCA compares installed software versions on the node with updates available in the VCRM managed repository Administrators configure VCA to point to a repository managed by VCRM For more information about version control tools see the HP Systems Insight Manager User Guide the HP Version Control Agent User Guide and the HP Version Control Repository Manager User Guide on the HP website http www hp com go enterprise docs 1 Select HP Insight Management from the available options in Products and Solutions 2 Select HP Version Control from the available options in HP Insight Management 3 Download the latest document Software and configuration utilities 156 HP operating systems and virtualization software support for ProLiant servers For information about specific versions of a supported operating system see the HP website http www hp com go ossupport HP Technology Service Portfolio Connect to HP for assistance on the journey to the new style of IT HP Technology Services delivers contidence and reduces risk to help you realize agility and stability in your IT infrastructure Utilize our consulting expertise in the areas of private or hybrid cloud computing big data and mobility requirements improving data center i
3. l Ce oe AN NS ES Ge Een ZS oe 5 Vum cl ed ie KS el SS i Ss Ges Je gt a Insert a flat screwdriver into the knockout b Twist and pull to remove the knockout from the node Pa een ee a GB Z gt i EE N NZ ge egw LED ODIN TR EF i S If removed install all rear I O blanks o Install the 1U left rear I O blank on page 38 o Install the 1U right rear I O blank on page 40 o Install the 2U rear I O blank Install the 2U node rear I O blank on page 41 Install any removed PCI riser cage assemblies PCI riser cage assembly options on page 84 Install the node into the chassis Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 Hardware options installation 128 Enabling the dedicated iLO management module To enable the dedicated iLO management module 1 During the server startup sequence after installing the module press F9 in the POST screen The System Utilities screen appears 2 Select System Configuration iLO 4 Configuration Utility The iLO 4 Contiguration Utility screen appears 3 Select Network Options and then press Enter The Network Options screen appears Set the Network Interface Adapter field to ON and then press Enter Press F10 to save your changes A message prompt to confirm the iLO settings reset appears Press Enter to reboot the iLO settings Press Ese until the main menu is displayed
4. a Position the heatsink on the processor backplate b Tighten one pair of diagonally opposite screws halfway and then tighten the other pair of screws Hardware options installation 126 0 6 7 8 c Finish the installation by completely tightening the screws in the same sequence Install the air baffle on page 42 Install any removed PCI riser cage assemblies PCI riser cage assembly options on page 84 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 Dedicated iLO management port module option For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component NES ZS 2 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove any installed PCI riser cage assemblies Remove the PCI riser cage assembly on page 48 Remove all rear I O blanks o Remove the 1U left rear I O blank on page 38 o Remove the 1U right rear I O blank on page 39 o Remove the 2U rear I O blank on page 40 Remove the knockout Hardware options installation 127 10 11 12 13 Au
5. 12 16 components 9 components identification 9 10 11 12 13 14 16 19 27 contiguration of system 143 connectors 9 contacting HP 167 crash dump analysis 18 customer self repair CSR 167 D diagnosing problems 160 diagnostic tools 143 147 151 152 diagnostics utility 147 DIMM installation guidelines 74 DIMM slot locations 19 DIMMs single dual and quad rank 74 documentation 172 documentation feedback 172 drive numbering 19 drivers 155 electrical grounding requirements 56 electrostatic discharge 163 environmental requirements 55 Erase Utility 143 147 F FBWC module 97 firmware 153 156 front panel components 9 front panel LEDs 10 G grounding methods 163 grounding requirements 56 163 H hardware options 64 hardware options installation 64 health driver 152 heatsink 123 HP Advanced Power Manager HP APM 62 HP Care Pack Services 54 157 HP contact information 167 HP iLO 143 HP Insight Diagnostics 147 HP Insight Online 143 146 HP Insight Remote Support software 146 157 Index 173 HP RESTful API 145 151 HP Service Pack for ProLiant 143 147 148 HP Smart Storage Battery 99 HP Smart Update Manager overview 143 148 HP SSA HP Smart Storage Administrator 143 152 iLO Integrated Lights Out 143 144 145 IML Integrated Management Log 143 145 Insight Diagnostics 147 153 installation services 54 installation server options 64 installing hardware 64 i
6. Freie Late a 1 EE EEE se maaecessesiaes 61 Installing Ihe power supplies ec act a E E R EERE Eii 61 POPS TIC RU Mec nasi PE EE NE 62 HP Advanced Power Manager F E 62 Powering on and selecting boot options in UEFI Boot Mode 62 Fe NN 62 Installing EE ERE EEE 63 ee 63 Bre ee ee ERE EEE ER EEE ENE 64 bed 64 NNN 64 BER EEN 64 REA ISA dite Ke d d e 011 SNE SEE NET RE EN 65 Ker 65 Pode 5 0 EE NE E EE EE EEE MN 67 Rack control management RCM E EEE EEE EEE NE 67 REMOTE erent nr Cretan mest teeter Nets ener eee ne ey eee aes eae et eee 69 R EL EL p 0 215 die pike ee 70 Fan 010 elv er 110 ae LITC CARE eee en eee Mee eer eee E re eee ne ne een eee 70 KU 111 rel 1 Le OE NE 71 NTN 72 Tr 73 Memory subsyslem OR EE E 73 Single dual and quad rank TEE 74 WIRT GE 74 Contents 4 Ne 75 General DIMM slot population guidelines cccccccceecccceeeeeeeeeeeeeeeeeaeeeeeeeseeeeeesseeeeeesseeeeeesseneeeeaaeees 76 Kone vvvrv4v4v47r4v4v47444vv E E N E E ER 77 ENN 78 SE 91 ER 78 DN RTE 19 Mini SAS H240 1U node cable option sise 80 Mini SAS H240 2U node cable option 2 225 enee ee ed io ane 81 Mini SAS P440 P840 cable option sisi 82 MEST EE ett 83 Velo cade ae mnoo 0 EEE EE 84 Single slot left PCI riser cage assembly option 85 Single slot 1U node right PCI riser cage assembly option 87 Single slot 2U node PCI riser cage assembly option cccccseccccceseeeceeeeeeeeeeeseeeeeeeeeeeeeesseeeeeesae
7. Install the 2U node rear I O blank cc cc ccceccececcececcccececcucececcecuceccucsaucueeeeusacausecaeensesaneusaeeusucuseusatensueeneees 41 RET Ce EE 41 eee hhv 42 Contents 3 Remove the Day board assembly na aan een nes nee ce nice 43 Install the bayonet TE 44 Remove the bayonet board bracket eebe ege ees geseet entends teene tee 46 Install the bayonet board arenneren 47 Remove the PCI riser cage assembly sisi 48 Single slot left PCI riser cage assembly cccccccccseeecccceeeeeeeeeceeeaseeeeeeeeesseeeeeeeesseeeeeeeessaeeeeeseeeaaeeeess 48 Single slot 1U node right PCI riser cage assembly 50 FlexibleLOM 1U node riser cage assembly rrrrrrrrvrrrrrrrvnerrrrrnnrrrrrrnnarrrrnnnernrnnnnnnnernnnsenernnnsenernnnsnnnne 50 Single slot 2U node PCI riser cage assembly rrrrrrnrrrrrrnnrrrrrrnnrrrrrrnnarnrvnnnnrnrvnnnnrrrrnnerrnrrnnserernnnssnernnnn 51 Flexible OM 20 node riser cage assembly EE 52 Free TURN 53 E ipa eee cent nt eens EN 54 Sele OO A eee EA eee 54 IS EEE EE EE 54 Go eu TE EE EE KE EE OE 55 Space and airflow FeO E 55 Temperature reoutrements seen 56 Power se 1 RES EN EEE 56 sje l se grounaing RE 56 Sener warming CCC GUI ONS EEE PE 57 OCR On E 57 Identifying the contents of the server shipping carton ss 58 Preparing HIG Chassie sera iranian TE I a a US 58 IT Ne 59 Installing the chassis into the rack 59 Chassis component e nd 60 Installing a node into the Chassis degeete eeg gege denges agbe ege 60
8. e Advanced ECC Provides up to 4 bit error correction and enhanced pertormance over Lockstep mode This mode is the default option for this node e Online spare memory Provides protection against failing or degraded DIMMs Certain memory is reserved as spare and automatic failover to spare memory occurs when the system detects a DIMM that is degrading This allows DIMMs that have a higher probability of receiving an uncorrectable memory error which would result in system downtime to be removed from operation Advanced Memory Protection options are contigured in the BIOS Plattorm Configuration RBSU If the requested AMP mode is not supported by the installed DIMM configuration the node boots in Advanced ECC mode For more information see the HP UEFI System Utilities User Guide for HP ProLiant Gen9 Servers on the HP website http www hp com go ProLiantUEFI docs Maximum capacity Dmmype Piment One processor Two procesos Single rank 4 GB Single rank 8 GB Dualrank 8 GB RDIMM Dual rank 16 GB 128 GB 256 GB LRDIMM Dual rank 16 GB 128 GB 256 GB RDIMM Dual rank 32 GB 256 GB 512 GB LRDIMM Quad rank 32 GB 256 GB 512 GB For the latest memory configuration information see the QuickSpecs on the HP website http www hp com go qs Advanced ECC memory contiguration Advanced ECC memory is the default memory protection mode for this node Standard ECC can correct single bit memory errors and detect multi bit memory e
9. m a ee ser His D Ba Dm L225 BI IR RE For more information on installing a storage controller see Controller options on page 96 Component identification 21 M 2 SATA SSD bay numbering e Bay9 e Bay 10 Hot plug drive LED definitions HP SmartDrive LED definitions HP SmartDrives are the latest HP drive technology and they are supported beginning with ProLiant Gen8 servers and server blades The HP SmartDrive is not supported on earlier generation servers and server blades Identify an HP SmartDrive by its carrier shown in the following illustration Component identification 22 When a drive is configured as a part of an array and connected to a powered up controller the drive LEDs indicate the condition of the drive e q locate locate Solid blue blue The drive is being identitied by a host application he Eege blue The drive carrier firmware is GE updated or requires an update Of No GE No drive activity a not remove EE white Do not remove the drive Removing the drive causes one or more kai A the logical drives to fail ee Removing the drive does not cause a logical drive to fail 4 Drivestatus Solid green The drive is a member of one or more logical drives Er green The drive is rebuilding or performing a RAID migration strip size migration capacity expansion or logical drive extension or is erasing Flashing The drive is a member of one or more logical drives and predicts
10. remove the storage controller Install the enablement board on the PCI riser cage assembly and then secure it with a T 15 screw o Single slot left PCI riser cage assembly na Udo H tze tonni r n DI seng Pom ak ee TTL T FR ia 5 oS Se SR el aL if 4 i ON Hardware options installation 122 o Single slot 2U node PCI riser cage assembly If removed install the storage controller Install any removed PCI riser cage assemblies PCI riser cage assembly options on page 84 10 Install the node into the chassis Installing a node into the chassis on page 60 11 Connect all peripheral cables to the nodes 12 Power up the node Power up the nodes on page 31 Processor and heatsink For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the server node from the chassis Remove the node from the chassis on page 32 4 Place the node on a flat level surface WARNING To reduce the risk of personal injury from hot surfaces allow the drives and the internal system components to cool before touching them CAUTION To avoid damage to the processor and system board only authorized personnel should attempt to replac
11. the system shuts down e The minimum fan requirement for this server to power on is four fans fans 1 2 3 and 4 Installing the fan option For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component Power down the system on page 31 Disconnect all peripheral cables from the nodes and chassis Remove the node from the chassis on page 32 If installed remove the security bezel on page 35 Remove all drives Removing the drive on page 35 If installed remove the RCM module on page 33 Remove all power supplies Remove the power supply on page 33 Remove the chassis from the rack on page 34 Fs Pr SS Ze a Remove the access panel Remove the chassis access panel on page 36 o Install the redundant fans in the left and right fan cages Hardware options installation 71 11 Connect the fan cables to the power connectors 12 Install the access panel Install the chassis access panel on page 37 13 Install the chassis into the rack Installing the chassis into the rack on page 59 14 If removed install the security bezel Security bezel option on page 64 15 Install all nodes drives and power supplies Chassis component installation on page 60 16 Reconnect all power a Connect each power cord to the power source b Connect the power
12. 45 kg 51 70 lb Weight minimum 9 86 kg 21 74 Ib HP ProLiant XL170r Gen9 Server Node 1U Weight with nodes removed 44 in 32 40 in Depth 17 95 cm 7 07 in 64 15 cm 25 26 in Weight maximum 1 73 kg 3 82 Weight minimum 1 67 kg 3 69 Ib HP ProLiant XL190r Geng Server Node 2U CE cc Depth in 17 95 cm 7 07 in 69 15 cm 27 23 in Weight maximum 6 47 kg 14 27 Weight minimum 4 73 kg 10 43 Ib Power supply specifications Depending on installed options the node is configured with one of the following power supplies HP 800W Flex Slot Titanium Hot Plug Power Supply Kit 96 efficiency HP 800W Flex Slot Platinum Hot Plug Power Supply Kit 94 efficiency HP 800W Flex Slot Universal Hot Plug Power Supply Kit 94 efficiency HP 800W Flex Slot 48VDC Hot Plug Power Supply Kit 94 efficiency Specifications 165 e HP 1400W Flex Slot Platinum Plus Hot Plug Power Supply Kit 94 efficiency For detailed power supply specifications see the QuickSpecs on the HP website http h 1 8000 www 1 hp com products quickspecs 14209_div 14209_div html Hot plug power supply calculations For hot plug power supply specifications and calculators to determine electrical and heat loading for the server see the HP website http www hp com go hppoweradvisor Specifications 166 Support and other resources Before you contact HP Be sure to have the followin
13. HP Smart Storage Administrator on page 152 Online and Offline Product QuickSpecs For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs HP iLO The iLO subsystem is a standard component of HP ProLiant servers that simplifies initial node setup server health monitoring power and thermal optimization and remote server administration The iLO subsystem includes an intelligent microprocessor secure memory and a dedicated network interface This design makes iLO independent of the host server and its operating system iLO enables and manages the Active Health System on page 144 and also features Agentless Management All key internal subsystems are monitored by iLO If enabled SNMP alerts are sent directly by iLO regardless of the host operating system or even if no host operating system is installed Embedded remote support software is available on HP ProLiant Gen8 and later servers with iLO 4 regardless of the operating system software and without installing OS agents on the server Software and configuration utilities 143 Using iLO you can do the following e Access a high performance and secure Integrated Remote Console to the server from anywhere in the world if you have a network connection to the server e Use the shared NET Integrated Remote Console to collaborate with up to four server administrator
14. Install the single slot left PCI riser cage assembly Single slot left PCI riser cage assembly option on page 85 AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed IMPORTANT If the PCle riser cage assembly is not seated properly then the server does not power up 12 Install the node into the chassis Installing a node into the chassis on page 60 13 Connect all peripheral cables to the nodes 14 Power up the node Power up the nodes on page 31 Single slot 2U node PCI riser cage assembly option To install the component 1 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the 2U rear I O blank on page 40 r oS Ze Hardware options installation 88 6 If you are installing an expansion board remove the PCI blank 7 Install any optional expansion boards 8 Connect all necessary internal cabling to the expansion board For more information on these cabling requirements see the documentation that ships with the option 9 Do the following a Install the single slot 2U node PCI riser cage assembly and secure it with two T
15. ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED 11 Close the processor retaining bracket When the processor is installed properly inside the processor retaining bracket the processor retaining bracket clears the flange on the front of the socket AA CAUTION Do not press down on the processor Pressing down on the processor may cause damage to the processor socket and the system board Press only in the area indicated on the processor retaining bracket AA CAUTION Close and hold down the processor cover socket while closing the processor locking levers The levers should close without resistance Forcing the levers closed can damage the processor and socket requiring system board replacement Hardware options installation 125 12 Press and hold the processor retaining bracket in place and then close each processor locking lever Press only in the area indicated on the processor retaining bracket AA CAUTION Always use a new heatsink when replacing processors Failure to use new components can cause damage to the processor 13 Remove the thermal interface protective cover from the heatsink AA CAUTION Heatsink retaining screws should be tightened or loosened in diagonally opposite pairs in an X pattern Do not overtighten the screws as this can damage the board connectors or screws Use the wrench supplied with the system to reduce the possibility of overtightening the screws 14 Install the heatsink
16. Select Intelligent Provisioning Software from the list of firmware and click Update If the check box is not selected the latest drivers are already installed Registering the server To experience quicker service and more efticient support register the product at the HP Product Registration website http register hp com Setup 63 Hardware options installation Introduction If more than one option is being installed read the installation instructions for all the hardware options and identify similar steps to streamline the installation process Z WARNING To reduce the risk of personal injury from hot surfaces allow the drives and the internal system components to cool before touching them AA CAUTION To prevent damage to electrical components properly ground the server before beginning any installation procedure Improper grounding can cause electrostatic discharge Security bezel option The security bezel helps prevent unauthorized physical access to the front panel components Install the security bezel and then lock it with the key provided with the kit Drive options The embedded HP Dynamic Smart Array B140i Controller only supports SATA devices For SAS drive installation install an HP Host Bus Adapter or an HP Smart Array Controller board option For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http w
17. Select Reboot the System to exit the utility and resume the boot process The IP address of the enabled dedicated iLO connector appears on the POST screen on the subsequent bootup Access the Network Options screen again to view this IP address for later reterence HP Trusted Platform Module option For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs Use these instructions to install and enable a TPM on a supported node This procedure includes three sections 1 Installing the Trusted Platform Module board on page 130 2 Retaining the recovery key password on page 131 3 Enabling the Trusted Platform Module on page 131 Enabling the TPM requires accessing BIOS Platform Configuration RBSU in HP UEFI System Utilities on page 149 TPM installation requires the use of drive encryption technology such as the Microsott Windows BitLocker Drive Encryption feature For more information on BitLocker see the Microsoft website http www microsoft com CAUTION Always observe the guidelines in this document Failure to follow these guidelines can cause hardware damage or halt data access When installing or replacing a TPM observe the following guidelines e Do not remove an installed TPM Once installed the TPM becomes a permanent part of the system board e When installing or replacing hardware HP
18. To prevent improper cooling and damage to the equipment do not block the ventilation openings When vertical space in the rack is not filled by o server or rack component the gaps between the components cause changes in airflow through the rack and across the servers Cover all gaps with blanking panels to maintain proper airflow CAUTION Always use blanking panels to fill empty vertical spaces in the rack This arrangement H g p Ply H g ensures proper airflow Using a rack without blanking panels results in improper cooling that can lead to thermal damage The 9000 and 10000 Series Racks provide proper server cooling from flow through perforations in the front and rear doors that provide 64 percent open area for ventilation CAUTION When using a Compaq branded 7000 series rack install the high airflow rack door insert PN 32728 1 B21 for 42U rack PN 157847 B21 for 22U rack to provide proper front to back airflow and cooling AA CAUTION Ifa third party rack is used observe the following additional requirements to ensure adequate airtlow and to prevent damage to the equipment e Front and rear doors lf the 42U rack includes closing front and rear doors you must allow 5 350 sq cm 830 sq in of holes evenly distributed from top to bottom to permit adequate airflow equivalent to the required 64 percent open area for ventilation e Side The clearance between the installed rack component and the side panels of the rack must be
19. USB 3 0 capable devices operate at USB 2 0 speeds when installed in a USB 2 0 port e When the node is configured for UEFI Boot Mode HP provides legacy USB support in the pre boot environment prior to the operating system loading for USB 1 0 USB 2 0 and USB 3 0 speeds e When the node is configured for Legacy BIOS Boot Mode HP provides legacy USB support in the pre boot environment prior to the operating system loading for USB 1 0 and USB 2 0 speeds While USB 3 0 ports can be used with all devices in Legacy BIOS Boot Mode they are not available at USB 3 0 speeds in the pre boot environment Standard USB support USB support from within the operating system is provided by the OS through the appropriate USB device drivers Support for USB 3 0 varies by operating system For maximum compatibility of USB 3 0 devices with all operating systems HP provides a configuration setting for USB 3 0 Mode Auto is the default setting This setting impacts USB 3 0 devices when connected to USB 3 0 ports in the following manner Software and configuration utilities 152 e Auto default If configured in Auto Mode USB 3 0 capable devices operate at USB 2 0 speeds in the pre boot environment and during boot When a USB 3 0 capable OS USB driver loads USB 3 0 devices transition to USB 3 0 speeds This mode provides compatibility with operating systems that do not support USB 3 0 while still allowing USB 3 0 devices to operate at USB 3 0 speeds with state o
20. VW L t ECH BUONO SES Gd i Cen 4 Rack control management RCM module For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com 90 9s To install the component Power down the nodes Power down the node on page 31 1 67 Hardware options installation 2 Disconnect each power cord from the power source 3 Remove the power supply relief strap from the handle on the bottom power supply 4 Install the rack control management module onto the bottom power supply 5 Reconnect all power a Connect each power cord to the power source b Connect the power cord to the chassis 6 Power up the nodes on page 31 ly IMPORTANT Use either the HP APM port or an iLO port to connect to a network Having both ports connected at the same time results in a loopback condition We IMPORTANT Do not connect both iLO ports to the network at the same time Only one iLO port can be connected to the network while the other iLO port can be used only as a connection to a second enclosure Having both ports connected at the same time results in a loopback condition Hardware options installation 68 7 If using the RCM module iLO ports to connect the chassis to a network connect all cables to the RCM module and the network Multiple chassis can be connected to the same network NOTE Arrow indicat
21. amber green the drive will fail Flashing amber The drive is not configured and predicts the drive will fail Solid amber The drive has failed NNN PENNE The blue Locate LED is behind the release lever and is visible when illuminated 12 IMPORTANT The HP Dynamic Smart Array B140i Controller is only available in UEFI Boot Mode It cannot be enabled in Legacy BIOS Boot Mode If the B140i controller is disabled drives connected to the system board Mini SAS connectors operate in AHCI or Legacy mode Under this condition e The drives cannot be a part of a hardware RAID or a logical drive e The Locate Drive status and Do not remove LEDs of the affected drives are disabled Use BIOS Platform Configuration RBSU in the UEFI System Utilities HP UEFI System Utilities on page 149 to enable or disable the B140i controller System Configuration gt BIOS Platform Configuration RBSU System Options gt SATA Controller Options gt Embedded SATA Configuration Component identification 23 Low profile LFF hot plug drive LED definitions we Baten Fault UID amber blue Online Activity green Online activity Fault UID LED Definition LED green amber blue On off or Alternating amber The drive has failed or a predictive failure alert has been received for flashing and blue this drive it also has been selected by a management application On off or Steadily blue The drive is operating normally and it has been sel
22. bayonet board assembly into the node Install the bayonet board assembly on page 44 17 Install the PCI riser cage asssembly PCI riser cage assembly options on page 84 18 Install the node into the chassis Installing a node into the chassis on page 60 19 Connect all peripheral cables to the node 20 Power up the node Power up the nodes on page 31 Mini SAS P440 2U node cable option In a 2U node the HP P440 Smart Array controller can only be installed in the single slot left PCI riser cage assembly or the single slot 2U node PCI riser cage assembly For more information about product features specitications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com 90 9s Hardware options installation 83 To install the component 1 2 3 4 5 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Do one of the following o Remove the 2U rear I O blank on page 40 o Remove the FlexibleLOM 2U node riser cage assembly on page 52 o Remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 Remove the bayonet board assembly from the node Remove the bayonet board assembly on page 43 Remove the bayonet board bracket from the bayonet board Remove the
23. cage assembly Single slot left PCI riser cage assembly option on page 85 AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed IMPORTANT If the PCle riser cage assembly is not seated properly then the server does not power up Install the node into the chassis Installing a node into the chassis on page 60 Hardware options installation 91 12 Connect all peripheral cables to the nodes 13 Power up the node Power up the nodes on page 31 FlexibleL OM 2U node riser cage assembly option To install the component Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove 2U rear I O blank Remove the 2U rear I O blank on page 40 Remove the PCI blank aa SS PS 7 Install the FlexibleLOM adapter Hardware options installation 92 8 Do the following a Install the single slot 2U node PCI riser cage assembly and secure it with two T 10 screws b Install the FlexibleLOM 2U node riser cage assembly and secure it with five T 10 screws AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all
24. eee 12 Node rear EE 13 Node rear panel Nr 14 POW 910 ER ones deer eadvaanpeniosaseesaeseuencesacs 16 Sy Siem DOI COMmPONeh GE 16 NNN 17 Moone OO qe demsatoss E E ceetaad 18 RI le VOC GI EE EE E A E 19 Well EE EE EE ne 19 Drive AO a OR nee me 19 HP Apollo r2200 Chassis drive numbering cccccccceeeeeccee ee eeceee ee eeeeeesseeeeeesseeeeeeeueeeeeeaaaeeeeegaaeeeeeas 20 HP Apollo r2600 Chassis drive numbering cccceecccce eee cc cece eeee cess eeeeee ss eeeeeesaeeeeeeeueeeeeeaaaeeeeegaaeeeeeas 20 M 2 SATA SSD bay UID FIN Ge EEE 22 Hot plug drive LED delnens eee eeee cece sisi 22 HP SmartDrive LED definitions sisi 22 Low profile LFF hot plug drive LED definitions ccccccccccceeseeecceee esse eeeeeeeesseceeeeeesseeeeeeeesseeeeeeeeeaaeees 24 He EE 25 e 10210 E E 26 PCle riser board slot a ee 27 Coar ee 3 Power op ne Eeer 31 orde 31 Ped 31 Remove the node from EE 32 R NOVER G 11190 1 EEE ERE EEE 33 R NOVER OWE SD ee 33 oe 34 Nemo eg SUN erd PRESENS EE 35 Re pe EE 35 Remove he chassi EE 36 KT el nasso acers E 37 Remove the 1U left rear I O blank cc cece ccc ccecccceccccececcecececcecucescucaceuceeecusuceussaeeneuseucesaeensusaseeseeneucanauees 38 Install the 1U left rear I O bonk ccc cc cececcccececcecececcececcecececcucuceececsaucaeaeeusasaueusasensuseueesaeensesuseesaeensaeeneeees 38 Remove the TU righi rear OO ee 39 ee vr 40 Remove the 2U rear I O bonk eue eee en eeeeeseeeneeeeneseeseses 40
25. o Remove the FlexibleLOM 2U node riser cage assembly on page 52 o Remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 If a B140i SATA cable is installed disconnect it from the connectors on the system board Remove the bayonet board assembly from the node Remove the bayonet board assembly on page 43 Remove the bayonet board bracket from the bayonet board Remove the bayonet board bracket on page 46 If installed disconnect and remove the B140i 1U node SATA cable or the B140i 2U node SATA cable Remove the PCI slot blank Install the HP P440 Smart array controller or HP P840 Smart Array controller into the riser cage assembly and secure it with one T 10 screw Controller options on page 96 Hardware options installation 82 13 Connect the Mini SAS cable to the Smart Storage controller and the bayonet board HP P840 Smart Array controller in a 2U node 14 In a 1U node do the following a Install the bayonet board bracket onto the bayonet board Install the bayonet board bracket on page 4 b Route and secure the cable under the thin plastic covers 15 Ina 2U node do the following a Route the cables under the padding on the 2U bayonet board and install the bayonet board bracket onto the bayonet board Install the bayonet board bracket on page 47 b Route and secure the cables under the thin plastic covers 16 Install the
26. of the ROM Safety and security benefits When you flash the system ROM ROMPag writes over the backup ROM and saves the current ROM as a backup enabling you to switch easily to the alternate ROM version if the new ROM becomes corrupted for any reason This feature protects the existing ROM version even if you experience a power failure while flashing the ROM Keeping the system current Access to HP Support Materials Access to some updates for HP ProLiant Servers may require product entitlement when accessed through the HP Support Center support portal HP recommends that you have an HP Passport set up with relevant entitlements For more information see the HP website http h20564 www2 hp com portal site hpsc public kb docDisplay docld c03859703 Software and configuration utilities 153 Updating firmware or System ROM Multiple methods exist to update the firmware or System ROM HP Service Pack for ProLiant on page 148 FWUPDATE utility on page 154 FWUpdate command from within the Embedded UEFI shell on page 154 Firmware Update application in System Utilities on page 155 Online Flash components on page 155 Product entitlement is required to perform updates For more information see Access to HP Support Materials on page 153 FWUPDATE utility The FWUPDATE utility enables you to upgrade the system firmware BIOS To use the utility to upgrade the firmware 1 2 3 Download the FWUPDATE flash c
27. server hardware and system configuration The Active Health System assists in diagnosing problems and delivering rapid resolution if server failures occur The Active Health System collects the following types of data e Server model e Serial number e Processor model and speed e Storage capacity and speed e Memory capacity and speed e Firmware BIOS Software and configuration utilities 144 HP Active Health System does not collect information about Active Health System users operations finances customers employees partners or data center such as IP addresses host names user names and passwords HP Active Health System does not parse or change operating system data trom third party error event log activities such as content created or passed through by the operating system The data that is collected is managed according to the HP Data Privacy policy For more information see the HP website http www hp com go privacy The Active Health System in conjunction with the system monitoring provided by Agentless Management or SNMP Pass thru provides continuous monitoring of hardware and configuration changes system status and service alerts for various server components The Agentless Management Service is available in the SPP which can be downloaded from the HP website http www hp com go spp download The Active Health System log can be downloaded manually from iLO or HP Intelligent Provisioning and sent to HP For m
28. support the bottom of the node when removing it from the chassis 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node Remove the node from the chassis a Loosen the thumbscrew b Pull back the handle and remove the node 1U node 2U node Operations 32 AA CAUTION To avoid damage to the device do not use the removal handle to carry it 4 Place the node on a flat level surface Remove the RCM module To remove the component 1 Power down the system on page 31 Access the product rear panel 2 3 Disconnect all cables from the RCM module 4 Remove the RCM module Remove the power supply To remove the component 1 Power down the system on page 31 2 Access the product rear panel 3 If installed remove the RCM module on page 33 4 Release the power cord from the relief strap 5 Remove all power a Disconnect the power cord from the power source b Disconnect the power cord from the chassis Operations 33 6 Remove the power supply Remove the chassis from the rack WARNING The chassis is very heavy To reduce the risk of personal injury or damage to the equipment e Observe local occupational health and safety requirements and guidelines for manual material handling e Remove all installed components from the chassis before installing or moving the chassis e Use caution and get help to lift and stabilize the chassis during installation o
29. the node Power up the nodes on page 31 Remove the PCI riser cage assembly Z WARNING To reduce the risk of personal injury from hot surfaces allow the drives and the internal system components to cool before touching them AA CAUTION To prevent damage to the server or expansion boards power down the server and disconnect all power cords before removing or installing the PCI riser cage Single slot left PCI riser cage assembly To remove the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the node from the chassis on page 32 Operations 48 4 Place the node on a flat level surface In a 2U node remove the three slot riser cage assembly Three slot PCI riser cage assemblies on page 53 6 Remove the single slot left PCI riser cage assembly o 1U node Les mem TT en ns Il 4 E Ta e nt AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed Operations 49 Single slot 1U node right PCI riser cage assembly To remove the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the node from the chassis on page 32 4 Doone of the following a Remove the 1U left rear
30. 10 screws b Install the FlexibleLOM 2U node riser cage assembly and secure it with five T 10 screws AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed ly IMPORTANT If the PCle riser cage assembly is not seated properly then the server does not power up Hardware options installation 89 10 Install the node into the chassis Installing a node into the chassis on page 60 11 Connect all peripheral cables to the nodes 12 Power up the node Power up the nodes on page 31 FlexibleLOM 1U node riser cage assembly option To install the component 1 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface ST Ss NM Do one of the following o Remove the 1U left rear I O blank on page 38 o Remove the single slot left PCI riser cage assembly on page 48 Remove the 1U right rear I O blank on page 39 Remove the PCI blank Hardware options installation 90 8 Install the FlexibleLOM adapter 9 10 Do one of the following 11 o Install the 1U left rear I O blank on page 38 o Install the single slot left PCI riser
31. 7 7 ai ts AV D Do one of the following o Install the 1U left rear I O blank on page 38 o Install the single slot left PCI riser cage assembly Single slot left PCI riser cage assembly option on page 85 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the node Power up the node Power up the nodes on page 31 Remove the 2U rear I O blank 1 2 3 4 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface Operations 40 5 Remove the 2U rear I O blank Install the 2U node rear I O blank 1 Install the 2U rear I O blank 2 Install the node into the chassis Installing a node into the chassis on page 60 3 Connect all peripheral cables to the node 4 Power up the node Power up the nodes on page 31 Remove the air battle 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node Operations 41 Remove the node from the chassis on page 32 4 Place the node on a flat level surface If installed in a 2U node remove the FlexibleL OM 2U node riser cage assembly FlexibleLOM 2U node riser cage assembly on page 52 6 If installed in a 2U node remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 7 Remove the air ba
32. HP Apollo 2000 System User Guide Abstract This document is for the person who installs administers and troubleshoots servers and storage systems HP assumes you are qualified in the servicing of computer equipment and trained in recognizing hazards in products with hazardous energy levels Part Number 79787 1 001 March 2015 Edition 1 Copyright 2015 Hewlett Packard Development Company L P The information contained herein is subject to change without notice The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services Nothing herein should be construed as constituting an additional warranty HP shall not be liable for technical or editorial errors or omissions contained herein Linux is the registered trademark of Linus Torvalds in the U S and other countries Microsoft and Windows are U S registered trademarks of the Microsoft group of companies MicroSD is a trademark or a registered trademark of SD 3C in the United States other countries or both Red Hat is a registered trademark of Red Hat Inc in the United States and other countries VMware is a registered trademark of trademark of VMware Inc in the United States and or other jurisdictions Contents JE JG DEE EEE EEE 8 AN 8 CE EEE S Chassis ron panel CODES rE neem encore ene ee ere 9 Chassis roni panel Eege EE 10 Chassie tear ee E 11 Chacie En een eee EE eee eee ee ee ee eee
33. I O blank on page 38 b Remove the single slot left PCI riser cage assembly on page 48 5 Remove the single slot 1U node right PCI riser cage assembly AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed FlexibleLOM 1U node riser cage assembly To remove the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the node from the chassis on page 32 4 Doone of the following a Remove the 1U left rear I O blank on page 38 b Remove the single slot left PCI riser cage assembly on page 48 Operations 50 5 Remove the FlexibleLOM 1U node riser cage assembly AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed Single slot 2U node PCI riser cage assembly To remove the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the node from the chassis on page 32 4 Place the node on a flat level surface 5 Remove the FlexibleLOM 2U node riser cage assembly on page 52 Operations 51 6 Re
34. ON To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed 11 Install the node into the chassis Installing a node into the chassis on page 60 12 Connect all peripheral cables to the nodes 13 Power up the node Power up the nodes on page 31 Hardware options installation 86 Single slot 1U node right PCI riser cage assembly option To install the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the server node from the chassis Remove the node from the chassis on page 32 4 Place the node on a flat level surface 5 Doone of the following o Remove the 1U left rear I O blank on page 38 o Remove the single slot left PCI riser cage assembly on page 48 Remove the 1U right rear I O blank on page 39 If you are installing an expansion board remove the PCI blank 8 Install any optional expansion boards into the PCI riser cage assembly 9 Connect all necessary internal cabling to the expansion board For more information on these cabling requirements see the documentation that ships with the option Hardware options installation 87 10 Install the PCI riser cage assembly 11 Do one of the following o Install the 1U left rear I O blank on page 38 o
35. PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed IMPORTANT If the PCle riser cage assembly is not seated properly then the server does not power up 9 Install the node into the chassis Installing a node into the chassis on page 60 10 Connect all peripheral cables to the nodes 11 Power up the node Power up the nodes on page 31 Three slot PCI riser cage assembly options NOTE The three slot PCI riser cage assembly and the three slot GPU direct PCI riser cage assembly share the same riser cage but have a different riser board For more information on the riser board slot specifications see PCle riser board slot definitions on page 27 To install the component 1 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the 2U rear I O blank on page 40 aS 2 Hardware options installation 93 6 Install the single dot left PCI riser cage assembly and then secure it with two T 10 screws 7 If installing an expansion board do the following a Remove the riser cage bracket Hardware options installation 94 b Select the appropriate PCle slot and remove any PCI blanks Install any optional expansion boards Conne
36. Specs on the HP website http www hp com go gs To install the component 1 oe er Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the FlexibleLOM 2U node PCI riser cage assembly FlexibleLOM 2U node riser cage assembly on page 52 Set the graphic card coprocessor power setting switch to the correct settings 225W 235W based on the power consumption of the graphic card coprocessor Graphic card coprocessor power setting switch on page 101 For more information see the documentation that ships with the graphic card coprocessor option Remove the two top PCI blanks from the riser cage assembly Hardware options installation 107 8 Connect the single graphic card coprocessor power cable to the connector on the riser board 9 Install the graphic card into the PCI riser cage assembly 10 Connect the power cable to the graphic card Hardware options installation 108 11 Connect the 2 pin graphic card adapter cable 12 Install the FlexibleLOM 2U node riser cage assembly and then secure it with five T 10 screws UV eegen 3 Hardware options installation 109 13 Connect the power cable to the bayonet board 14 Install the node into the chassis Installing a node into the chassis on page 60 15 Connec
37. a minimum of 7 cm 2 75 in Setup 55 Temperature requirements To ensure continued safe and reliable equipment operation install or position the system in a well ventilated climate controlled environment The maximum recommended ambient operating temperature TMRA for most server products is 35 C 95 F The temperature in the room where the rack is located must not exceed 35 C 95 F AA CAUTION To reduce the risk of damage to the equipment when installing third party options e Do not permit optional equipment to impede airflow around the server or to increase the internal rack temperature beyond the maximum allowable limits e Do not exceed the manutacturer s TMRA Power requirements Installation of this equipment must comply with local and regional electrical regulations governing the installation of information technology equipment by licensed electricians This equipment is designed to operate in installations covered by NFPA 70 1999 Edition National Electric Code and NFPA 75 1992 code for Protection of Electronic Computer Data Processing Equipment For electrical power ratings on options refer to the product rating label or the user documentation supplied with that option WARNING To reduce the risk of personal injury fire or damage to the equipment do not overload the AC supply branch circuit that provides power to the rack Consult the electrical authority having jurisdiction over wiring and installation requ
38. ages and value add software can be downloaded as part of an SPP If you are installing drivers from SPP be sure that you are using the latest SPP version that your node supports To verify that your node is using the latest supported version and for more information about SPP see the HP website htto www hp com go spp download To locate the drivers for a particular server go to the HP website hitp www hp com go hpsc and click on Drivers Software amp Firmware Then enter your product name in the Find an HP product field and click Go Software and firmware Software and firmware should be updated before using the server for the first time unless any installed software or components require an older version For system software and firmware updates use one of the following sources e Download the SPP HP Service Pack for ProLiant on page 148 from the HP Service Pack for ProLiant download page http www hp com go spp e Download individual drivers firmware or other systems software components from the node product page in the HP Support Center http www hp com go hpsc Operating System Version Support For information about specific versions of a supported operating system refer to the operating system support matrix http www hp com go supportos Version control The VCRM and VCA are web enabled Insight Management Agents tools that HP SIM uses to schedule software update tasks to the entire enterprise e
39. all the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 Mini SAS P440 P840 cable option In a 1U node the HP P440 Smart Array controller must be installed in the single slot left PCI riser cage assembly To install an HP P840 Smart Array controller in a 2U node two P440 P840 Mini SAS cable options are required The HP P840 Smart Array controller can only be installed in slot 2 of FlexibleLOM 2U node riser cage assembly or slot 3 of a three slot PCI riser cage assembly For more information on the riser board slot specifications see PCIe riser board slot definitions on page 27 For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component k 2 3 4 5 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface If installing an HP P440 Smart Array controller do one of the following o Remove the 1U left rear I O blank on page 38 o Remove the single slot left PCI riser cage assembly on page 48 It installing a HP P840 Smart Array controller do one of the following o Remove the 2U rear I O blank on page 40
40. ase year of 2000 For example 0238 02 for 2002 and 38 for the week of September 9 Turkey RoHS material content declaration T rkiye Cumhuriyeti EEE Y netmeli ine Uygundur Ukraine RoHS material content declaration OOTATHAHHA BLITOBLIAE BHMOTaM TeXHIGHOrTO perT1aMeHTV WOJO OOMESKEHHA BHKOPHCTAHHA JECAKHX HEOESIIEMHHX PEXOBHH E SIEKTPHYHOMVY Ta STEKTPOHHOMY OOJa HaHHI 3TEEDITEEHOTO HOCTAHOBO RKaGinety Minictpis Ykpainn Big 3 rpvoss 2008 Ne 1057 Warranty information HP ProLiant and X86 Servers and Options http www hp com support ProliantServers Warranties HP Enterprise Servers http www hp com support EnterpriseServers Warranties HP Storage Products http www hp com support Storage Warranties HP Networking Products http www hp com support Networking Warranties Regulatory information 162 Electrostatic discharge Preventing electrostatic discharge To prevent damaging the system be aware of the precautions you need to follow when setting up the system or handling parts A discharge of static electricity from a finger or other conductor may damage system boards or other static sensitive devices This type of damage may reduce the life expectancy of the device To prevent electrostatic damage Avoid hand contact by transporting and storing products in static safe containers Keep electrostatic sensitive parts in their containers until they arrive at static free workstations Place parts on a grounded surface
41. at the HP website http www hp com support Satety Compliance EnterpriseProducts Belarus Kazakhstan Russia marking EAL Manufacturer Hewlett Packard Company Address 3000 Hanover Street Palo Alto California 94304 U S Local representative information Russian e HP Russia 3A0 Taponer lakkapg A O 125171 Poccua r Mockea Tleuunrponckoe wocce 16A ctp 3 ten akc 7 495 797 35 00 7 495 287 89 05 e HP Belarus MOOO e pronerr laxkapg ben 220030 benapyce r Munck yn Liurepooutuonongpnog 36 1 opuc 722 723 ten 375 17 392 28 18 daxc 375 1 7 392 28 21 e HP Kazakhstan TOO e ponerr lakkapg Kh 050040 Kazaxcron r Anmatb DoctakpbiKCKH pa on yn Tumupssesa 28B 1 stax ten akc 7 727 355 35 50 7 27 355 35 51 Local representative information Kazakh LUC Xpronertl laxkapg K KazakKcran Anmate K BocrangtiK GYpOHbI Tumupsses kci 28B ten barc 7 727 355 35 50 7 727 355 35 51 Manufacturing date The manufacturing date is defined by the serial number HP serial number format for this product CCSYWWZZZ4 Regulatory information 161 Valid date formats include the following e YWW where Y indicates the year counting from within each new decade with 2000 as the starting point For example 238 2 for 2002 and 38 for the week of September 9 In addition 2010 is indicated by 0 2011 by 1 2012 by 2 2013 by 3 and so forth e YYWW where YY indicates the year using a b
42. bayonet board bracket on page 46 If installed disconnect and remove the B140i 2U node SATA cable Remove the PCI slot blank Install the HP P440 Smart Array controller into the riser cage assembly and secure it with one T 10 screw Controller options on page 96 Connect the Mini SAS cable to the Smart Storage controller and the bayonet board Route the cable under the padding on the 2U bayonet board and install the bayonet board bracket onto the bayonet board Install the bayonet board bracket on page 47 Route and secure the cable under the thin plastic covers Install the bayonet board assembly into the node Install the bayonet board assembly on page 44 Install the PCI riser cage assembly Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 PCI riser cage assembly options Each node supports two PCI riser cage assembly options A second processor is required to support installation of the single slot 1U node right PCI riser cage assembly or a three slot PCI riser cage assembly For more information on the riser board slot specifications see PCle riser board slot definitions on page 27 Hardware options installation 84 In a 2U node a three slot PCI riser cage assembly must be installed with the single dot left PCI riser cage assembly The FlexibleLOM 2U riser cage assembly must be in
43. before installing or moving the chassis e Use caution and get help to lift and stabilize the chassis during installation or removal especially when the chassis is not fastened to the rack WARNING To avoid risk of personal injury or damage to the equipment do not stack anything on top of rail mounted equipment or use it as a work surface when extended from the rack CAUTION Always plan the rack installation so that the heaviest item is on the bottom of the rack Install the heaviest item first and continue to populate the rack from the bottom to the top The chassis requires installation in a rack To install the rack rails see the Quick Deploy Rail System Installation Instructions that ship with the rack hardware kit You can install up to twenty one chassis in a 42U 1200 mm deep rack If you are installing more than one chassis install the first chassis in the bottom of the rack and then install additional chassis by moving up the rack with each subsequent chassis Plan the rack installation carefully because changing the location of installed components might be difficult A WARNING To reduce the risk of personal injury or damage to the equipment be sure that e The rack is bolted to the floor using the concrete anchor kit e The leveling feet extend to the floor e The full weight of the rack rests on the leveling feet e The racks are coupled together in multiple rack installations e Only one component is extended a
44. before removing them from their containers Avoid touching pins leads or circuitry Always be properly grounded when touching a static sensitive component or assembly Grounding methods to prevent electrostatic discharge Several methods are used for grounding Use one or more of the following methods when handling or installing electrostatic sensitive parts Use a wrist strap connected by a ground cord to a grounded workstation or computer chassis Wrist straps are flexible straps with a minimum of 1 megohm 10 percent resistance in the ground cords To provide proper ground wear the strap snug against the skin Use heel straps toe straps or boot straps at standing workstations Wear the straps on both feet when standing on conductive floors or dissipating floor mats Use conductive field service tools Use a portable field service kit with a folding static dissipating work mat If you do not have any of the suggested equipment for proper grounding have an authorized reseller install the part For more information on static electricity or assistance with product installation contact an authorized reseller Electrostatic discharge 163 Specifications Environmental specifications Temperature range EE Operating 10 C to 35 C 50 F to 95 F Nonoperating 30 C to 60 C 22 F to 140 F Relative humidity noncondensing Operating Minimum to be the higher more moisture of 2 C 10 4 F dew point or 8 rela
45. cord to the chassis 17 Connect all peripheral cables to the nodes 18 Power up the nodes on page 31 Memory options Lk IMPORTANT This node does not support mixing LRDIMMs or RDIMMs Attempting to mix any combination of these DIMMs can cause the server to halt during BIOS initialization The memory subsystem in this node can support LRDIMMs and RDIMMs e RDIMMs offer address parity protection e LRDIMMs support higher densities than single and dual rank RDIMMs and higher speeds than quad rank RDIMMs This support enables you to install more high capacity DIMMs resulting in higher system capacities and higher bandwidth All types are referred to as DIMMs when the information applies to all types When specified as LRDIMM or RDIMM the information applies to that type only All memory installed in the node must be the same type The server supports the following RDIMM and LRDIMM speeds e Single and dual rank PC4 2133 DDR4 2133 RDIMMs and LRDIMMs operating at up to 2133 MT s Speed and capacity Hardware options installation 72 Dype DIMM renk DIMM capaciy Native spoed MT Populated DIMM speed MT s DIMM ype DIMM ronk 1 DIMM pr hanne 2 DIMM par charnel For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs HP SmartMemory HP SmartMemory authenticates and unlocks certain features a
46. ct all necessary internal cables to the expansion board For more information on these cabling requirements see the documentation that ships with the option Install the riser cage bracket Hardware options installation 95 11 Install the three slot riser cage assembly and then secure it with six T 10 screws AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed 1 IMPORTANT Ifthe PCle riser cage assembly is not seated properly then the server does not power up 12 Install the node into the chassis Installing a node into the chassis on page 60 13 Connect all peripheral cables to the nodes 14 Power up the node Power up the nodes on page 31 Controller options The node ships with an embedded HP Dynamic Smart Array B140i Controller For more information about the controller and its features see the HP Dynamic Smart Array B 140i RAID Controller User Guide on the HP website http www hp com go smartstorage docs Upgrade options exist for an integrated array controller For a list of supported options see the product QuickSpecs on the HP website http www hp com g90 9s To configure arrays see the HP Smart Storage Administrator User Guide on the HP website http www hp com go smartstorage docs T
47. d install the HP Smart Storage Battery Connect the HP Smart Storage Battery cable to power distribution board Install the HP Smart Storage Battery holder into the chassis gt e lt q Install the access panel Install the chassis access panel on page 37 Install the chassis into the rack Installing the chassis into the rack on page 59 Install all nodes drives and power supplies Chassis component installation on page 60 If removed install the security bezel Security bezel option on page 64 If removed install the RCM module Rack control management RCM module on page 67 Connect all peripheral cables to the nodes and chassis Power up the nodes on page 31 Hardware options installation 100 Graphic card options Graphic card coprocessor power setting switch Before installing a graphic card coprocessor option set the graphic card coprocessor power setting switch to the correct settings based on the power consumption of the graphic card coprocessor The switch is located on the 2U bayonet board e Switches 1 and 2 correspond to graphic card 1 coprocessor 1 e Switches 3 and 4 correspond to graphic card 2 coprocessor 2 No graphic card coprocessor installed default 1 First graphic card 1 OFF ON OFF coprocessor 2 ON ON OFF 2 Second graphic card 3 OFF ON OFF coprocessor 4 ON ON OFF Single graphic card coprocessor power cable option This power cable is for use in the Flexibl
48. e Boot is completely implemented in the BIOS and does not require special hardware It ensures that each component launched during the boot process is digitally signed and that the signature is validated against a set of trusted certificates embedded in the UEFI BIOS Secure Boot validates the software identity of the following components in the boot process e UEFI drivers loaded from PCle cards e UEFI drivers loaded from mass storage devices e Pre boot UEFI shell applications e OS UEFI boot loaders Once enabled only firmware components and operating systems with boot loaders that have an appropriate digital signature can execute during the boot process Only operating systems that support Secure Boot and have an EFI boot loader signed with one of the authorized keys can boot when Secure Boot is enabled For more information about supported operating systems see the HP UEFI System Utilities and Shell Release Notes on the HP website http www hp com go ProLiantUEFI docs A physically present user can customize the certificates embedded in the UEFI BIOS by adding removing their own certificates Software and configuration utilities 150 Embedded UEFI shell The system BIOS in all HP Proliant Gen9 servers includes an Embedded UEFI Shell in the ROM The UEFI Shell environment provides an API a command line prompt and a set of CLIs that allow scripting file manipulation and system information These features enhance the capabilities of th
49. e UEFI System Utilities For more information see the following documents e HP UEFI Shell User Guide for HP Proliant Gen Servers on the HP website http www hp com go ProliantUEFI docs e UEFI Shell Specification on the UEFI website hitp www ueti org specitications Embedded Diagnostics option The system BIOS in all HP ProLiant Gen9 servers includes an Embedded Diagnostics option in the ROM The Embedded Diagnostics option can run comprehensive diagnostics of the server hardware including processors memory drives and other server components For more information on the Embedded Diagnostics option see the HP UEFI System Utilities User Guide for HP ProLiant Gen Servers on the HP website http www hp com go ProLiantUEFI docs HP RESTful API support for UEFI HP ProLiant Gen9 servers include support for a UEFI compliant System BIOS along with UEFI System Utilities and Embedded UEFI Shell pre boot environments HP Proliant Gen9 servers also support configuring the UEFI BIOS settings using the HP RESTful API a management interface that server management tools can use to perform configuration inventory and monitoring of an HP ProLiant server A REST client uses HTTPS operations to configure supported server settings such as UEFI BIOS settings For more information about the HP RESTful API and the HP RESTful Interface Tool see the HP website http www hp com support restfulintertace docs Re entering the server serial nu
50. e node into the chassis Installing a node into the chassis on page 60 16 Connect all peripheral cables to the nodes 17 Power up the node Power up the nodes on page 31 Dual graphic card coprocessor power cable option This power cable is for use in the three slot PCI riser cage assembly and three slot GPU direct PCI riser cage assembly Hardware options installation 103 For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go as To install the component Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 ewe Se SS Set the graphic card power setting switch to the correct settings based on the power consumption of the graphic card For more information see the documentation that ships with the graphic card option 7 Remove the riser cage bracket 8 If installing a half height graphic card remove the middle PCI blank only Hardware options installation 104 S 10 11 12 13 14 15 If installing a full height graphic card remove the middle and top PCI blanks Turn the riser cage assembly over and lay it along the right s
51. e or install the processor in this node CAUTION To prevent possible node malfunction and damage to the equipment multiprocessor configurations must contain processors with the same part number gt D gt D CAUTION The heatsink thermal interface media is not reusable and must be replaced if the heatsink is removed from the processor after it has been installed Hardware options installation 123 Lk IMPORTANT Processor socket I must be populated at all times or the node does not function 5 installed in a 2U node remove the FlexibleLOM 2U node riser cage assembly FlexibleL OM 2U node riser cage assembly on page 52 6 If installed in a 2U node remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 Remove the air baffle on page 41 Open each of the processor locking levers in the order indicated in the following illustration and then open the processor retaining bracket 9 Remove the clear processor socket cover Retain the processor socket cover for future use AA CAUTION THE PINS ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED To avoid damage to the system board do not touch the processor or the processor socket contacts Hardware options installation 124 10 Install the processor Verity that the processor is fully seated in the processor retaining bracket by visually inspecting the processor installation guides on either side of the processor THE PINS
52. eLOM 2U node riser cage assembly only For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the FlexibleLOM 2U node riser cage assembly on page 52 ow eS YS Si Set the graphic card power setting switch to the correct settings based on the power consumption of the graphic card Graphic card coprocessor power setting switch on page 101 For more information see the documentation that ships with the graphic card option 7 If installing a half height graphic card remove the middle PCI blank only Hardware options installation 101 8 If installing a full height graphic card remove the middle and top PCI blanks 10 Install the graphic card into the PCI riser cage assembly Hardware options installation 102 11 If installing an NVIDIA Tesla K40 GPU connect the 2 pin graphic card adapter cable to the graphic card and the riser board 12 Connect the power cable to the graphic card 13 Install the FlexibleLOM 2U node riser cage assembly and then secure it with five T 10 screws 14 Connect the power cable to the bayonet board 15 Install th
53. ect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Do one of the following o Remove the 2U rear I O blank on page 40 o Remove the single slot 2U node PCI riser cage assembly on page 51 o Remove the single slot left PCI riser cage assembly on page 48 If a B140i SATA cable is installed disconnect it from the connectors on the system board Remove the bayonet board assembly from the node Remove the bayonet board assembly on page 43 Remove the bayonet board bracket from the bayonet board Remove the bayonet board bracket on page 46 If installed disconnect and remove the B140i 2U node SATA cable Remove riser slot blank from riser cage Install the host bus adapter into the riser cage assembly and secure it with one T 10 screw Connect the Mini SAS cable to the host bus adapter Connect the opposite ends of the cable assembly to the bayonet board Route the cable under the padding on the 2U bayonet board and install the bayonet board bracket onto the bayonet board Install the bayonet board bracket on page 47 Route and secure the cable under the thin plastic covers Install the bayonet board assembly into the node Install the bayonet board assembly on page 44 Hardware options installation 81 Install the PCI riser cage assemblies PCI riser cage assembly options on page 84 Inst
54. ected by a vesting management application Amber A predictive failure alert has been received for this drive Replace the Flashing 1 Hz drive as soon as possible On JO The drive is online but it is not active currently Flashing 1 Hz Amber Do not remove the drive Removing a drive may terminate the current Flashing 1 Hz operation and cause data loss The drive is part of an array that is undergoing capacity expansion or stripe migration but a predictive failure alert has been received for this drive To minimize the risk of data loss do not replace the drive until the expansion or migration is complete Flashing 1 Hz Do not remove the drive Removing a drive may terminate the current operation and cause data loss The drive is rebuilding erasing or it is part of an array that is undergoing capacity expansion or stripe migration Flashing 4 Hz Amber The drive is active but a predictive failure alert has been received for Flashing 1 Hz this drive Replace the drive as soon as possible Flashing 4 Hz The drive is active and it is operating normally Of Steadily amber A critical fault condition has been identified for this drive and the controller has placed it offline Replace the drive as soon as possible Off Amber A predictive failure alert has been received for this drive Replace the Flashing 1 Hz drive as soon as possible The drive is offline a spare or not configured as part of an array Co
55. eeeeenaees 88 FlexibleLOM 1U node riser cage assembly Option ccccccccsseececeeseeeeeesseeeeeesseeeeeeeueeeeeeeueeeeeegaaeeeeeas 90 FlexibleLOM 2U node riser cage assembly Option ccccccccssecceceeseeeeeesseeeeeeeseeeeeeeueeeeeeeaeeeeeeeaaeeeeeas 92 Three slot PCI riser cage assembly NNN 93 CO EEE 96 Storage controller en et EE 97 Installing the storage controller and FBWC module options 97 ne ANN 99 EE 101 Graphic card coprocessor power setting switch 101 Single graphic card coprocessor power cable option 101 Dual graphic card coprocessor power Cable option ccccccccccccceeseeeeceeeeseeeeceeeeesseeeeeeseeuaeeeeeeeeaas 103 NVIDIA Tesla K40 12GB Module Enablement Kit 106 Inel Coprocessor EE 114 M2 SATA SSD Tale 9 11 10 1 EE 121 ed 123 Dedicated iLO management port module option eee 127 Enabling the dedicated iLO management module 2 129 HP Trosted Platform Module OPROn psseinidarisssis iine A EE E E OARE 129 Installing the Trusted Platform Module board 130 Retaining the recovery key password tee eege EES 131 Enabling the NNN 131 5 EE 133 Chassis CADI EE 133 FONT O CII E 133 Drive backplane power Coblingie ns ess ana ancnce nee a cet amener 134 MN 135 Fr 135 FM CCN NING PENERE EEE 136 HP Smart Storage Battery NNN 136 Hode cann EE 137 NNN 137 Graphic card coprocessor Colling 139 Pl a an ae 140 Software and configuration LTIMRES nssesssescshnssesenissnesssscsesnenssssenersss
56. elp you make the most of your server investments Some of the Care Pack services are e Hardware support o 6 Hour Call to Repair o 4 Hour 24x7 Same Day o 4 Hour Same Business Day e Software support o Microsoft o Linux o HP Proliant Essentials HP SIM and RDP o VMware e Integrated hardware and software support o Critical Service Setup 54 o Proactive 24 o Support Plus o Support Plus 24 e Startup and implementation services for both hardware and software For more information on HP Care Pack Services see the HP website http www hp com services carepack Optimum environment When installing the server select a location that meets the environmental standards described in this section Space and airtlow requirements To allow for servicing and adequate airflow observe the following space and airflow requirements when deciding where to install a rack e leave a minimum clearance of 85 09 cm 33 5 in in front of the rack e Leave a minimum clearance of 76 2 cm 30 in behind the rack e Leave a minimum clearance of 121 9 cm 48 in from the back of the rack to the back of another rack or row of racks HP nodes draw in cool air through the front door and expel warm air through the rear door Therefore the front and rear rack doors must be adequately ventilated to allow ambient room air to enter the cabinet and the rear door must be adequately ventilated to allow the warm air to escape from the cabinet CAUTION
57. embly If any SATA or Mini SAS cables are installed secure the cables under the thin plastic covers along the side of the node tray If removed connect the B140i SATA cable to the connectors on the system board B140i 1U node SATA cable on page 78 B140i 2U node SATA cable on page 79 If a graphic card coprocessor power cable was removed connect it to the bayonet board If removed install the FlexibleLOM 2U node riser cage assembly Flexible OM 2U node riser cage assembly option on page 92 If removed install the three slot PCI riser cage assembly Three slot PCI riser cage assembly options on page 93 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the node Operations 45 Power up the node Power up the nodes on page 31 Remove the bayonet board bracket St n S es Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface If installed in a 2U node remove the FlexibleLOM 2U node riser cage assembly FlexibleLOM 2U node riser cage assembly on page 52 If installed in a 2U node remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 If a graphic card coprocessor power cable is installed disconnect it from the bayonet board If a B140i SATA cable is installed disconnec
58. ent declaration EEE ni aadousasaesteaewioes 162 Ukraine RoHS material content declaration EE 162 VANN 162 S LL 163 Preventing electrostatic discharge saved 163 Grounding methods to prevent electrostatic discharge ccccccseecccecseeeeeeeseeeeeesseeeeeesseeeeeeeseeeeeeeaaeeeeeaaaeeeeeas 163 EE 164 NN 164 Ne ANN 164 Powersupply FT 165 MHorplug oe EE 166 Contents 6 Suppor and oiher RE AEN 167 Ped 167 HP contac informatiON EE 167 Acronyms and gt sje OI EE 168 Documentation feedback cccccccccccceecccceeccccueccceuccseueccscecesseceseesceseecessscesusceseescssueseesueseseness 172 DEE tee 173 Contents 7 HP Apollo 2000 System Introduction The HP Apollo 2000 System consists of a chassis and nodes Chassis e HP Apollo r2200 Chassis 12 low profile LFF hot plug drives e HP Apollo r2600 Chassis 24 SFF hot plug drives Nodes e HP Proliant XL170r Gen Server Nodes 1U e HP Proliant XL190r Gen Server Nodes 2U One chassis can support a maximum of e Four 1U nodes e Two 1U nodes and one 2U node e Two 2U nodes For more information about product features specitications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com 90 9s HP Apollo 2000 System 8 Component identification Chassis front panel components HP Apollo r2200 Chassis JE LE fem bes Left bezel ear Low profile LFF hot plug drives Right bezel ear Chassis s
59. er cage assembly on page 48 AA CAUTION Any attempt to remove an installed TPM from the system board breaks or disfigures the TPM security rivet Upon locating a broken or distigured rivet on an installed TPM administrators should consider the system compromised and take appropriate measures to ensure the integrity of the system data Install the TPM board Press down on the connector to seat the board System board components on page 16 Hardware options installation 130 7 10 11 Install the TPM security rivet by pressing the rivet firmly into the system board Vo Install any removed PCI riser cage assemblies PCI riser cage assembly options on page 84 Install the node into the chassis Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 Retaining the recovery key password The recovery key password is generated during BitLocker setup and can be saved and printed after BitLocker is enabled When using BitLocker always retain the recovery key password The recovery key password is required to enter Recovery Mode after BitLocker detects a possible compromise of system integrity To help ensure maximum security observe the following guidelines when retaining the recovery key password Always store the recovery key password in multiple locations Always store copies of the recovery key password away from the node Do not save the recovery key password
60. er to green For more information about iLO see the HP website http www hp com g0 ilo Power down the system E IMPORTANT When the nodes are in standby mode auxiliary power is still being provided to the system 1 Power down the node on page 31 2 Disconnect the power cords from the power supplies Power down the node Before powering down the node for any upgrade or maintenance procedures perform a backup of critical server data and programs iY IMPORTANT When the node is in standby mode auxiliary power is still being provided to the system To power down the node use one of the following methods e Press and release the Power On Standby button This method initiates a controlled shutdown of applications and the OS before the node enters standby mode e Press and hold the Power On Standby button for more than 4 seconds to force the node to enter standby mode This method forces the node to enter standby mode without properly exiting applications and the OS If an application stops responding you can use this method to force a shutdown e Use a virtual power button selection through iLO This method initiates a controlled remote shutdown of applications and the OS before the node enters standby mode Before proceeding verify the node is in standby mode by observing that the system power LED is amber Operations 31 Remove the node from the chassis AA CAUTION To avoid damage to the node always
61. ercisesressosererneeseseseentess 143 SE 143 PO LOV 1 02 EEE ene ee en ee eee ne eee ee eee 143 PFU 143 re ed me SEES E ce aon nt ace 144 Contents 5 Klak EN support for HP e E 145 Integrated Management Log na cn cs a etensss nice ess ee ane 145 Eloge ee 146 hele 146 AP Leer 147 Prase EE EEE EEE E E 147 Scripting Toolkit for Windows and Linux sisi 148 PT 148 HP Smart Update e EE 148 EUERE RT E 149 Usmo AP IER UNE cana tece ew cbare aesciecedasaueeesauscesy seit anae 149 RSR EE 149 Restoring and customizing configuration settings cccccccccssseeccceee sees eeeeeeeeeeeeeeeeeesueeeeeeeeaaeeeeeeeeaas 150 DOCU E COM UKM CMs ee 150 BOS Ce Da EE 151 NN 151 APRESTULAP Supporti TOR hhv 151 Re entering the server serial number and product ID 151 CSS OR 2 E patie A A pees ee ees 152 HP Smar orage e E 152 Automdhic server EE 152 Beien EE 152 Re RO VO re E ee 153 NNN 153 POP NN 153 Updating firmware or System RON EE eoaevoanecem 154 D wc 155 SEENEN 156 Operding NNN NN 156 NNN 156 HP operating systems and virtualization software support for ProLiant Servers rrrrrrrrrrrrrrrrrrrrrrrvnnnnnnn 157 HP Technology Service Porfolio re 157 Change control and proactive notification LL pusser leende dg 157 ee A 158 ee E tri ons pret nn esc AEE AEE ten 160 Ee 160 a RE 161 Safety and regulatory compliance ne ma en ee ae MR besaecundeeecnseaeens 161 Bel aris Kazakhstan Use Be 0 EEE 161 Turkey RoHS material cont
62. erial label pull tab HP Apollo r2600 Chassis Description Description S Component identification 9 Power On Standby button and system power LED Node 1 Power On Standby button and system power LED Node 2 Health LED Node 2 Health LED Node 1 Health LED Node 3 Health LED Node 4 Power On Standby button and system power LED Node 4 UID button LED Chassis front panel LEDs and buttons Solid green System on Flashing green Performing power on sequence Solid amber System in standby Off No power present Solid green System on Flashing green Performing power on sequence Solid amber System in standby Off No power present Solid green Normal Flashing amber System degraded Flashing red System criticalt Solid green Normal Flashing amber System degraded Flashing red System criticalt Solid green Normal Flashing amber System degraded Flashing red System criticalt Solid green Normal Flashing amber System degraded Flashing red System critical Solid green System on Flashing green Performing power on sequence Solid amber System in standby Off No power present Solid blue Activated Flashing blue e 1 Hz cycle per sec Remote management or firmware upgrade in progress e 4Hz cycle per sec iLO manual soft reboot sequence initiated 8 Hz cycle per sec iLO manual hard reboot sequence in progress Off Deactivated Compone
63. es connection to the network 8 If installing HP APM see the HP Advanced Power Manager User Guide on the HP website http www hp com go docs RCM 2 0 to 1 0 adapter cable For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component 1 Power down the system Power down the system on page 31 2 Disconnect each power cord from the power source 3 Install the rack control management module Rack control management RCM module on page 67 Hardware options installation 69 4 Connect the RCM 2 0 to 1 0 adapter cable to the RCM module 5 Reconnect all power a Connect each power cord to the power source b Connect the power cord to the chassis Power up the nodes on page 31 To install contigure and access HP APM see the HP Advanced Power Manager User Guide on the HP website http www hp com go docs Redundant fan option Fan population guidelines To provide sufficient airflow to the system if a fan fails the server supports redundant fans ET CN TT Hardware options installation 70 Configuration Fan Fan bay Fan bay Fan Fan Fan Fan bay bay 1 4 bay5 bay6 bay7 8 Fan e In a redundant fan mode o If one fan fails the system continues to operate without redundancy This condition is indicated by a flashing amber Health LED o If two fans fail
64. et microsoft com en us library cc732774 aspx Hardware options installation 132 Cabling Chassis cabling Front I O cabling e LETTETETETE a CELL e Li Hem Description Left front 1 O cable Right front I O cable Cabling 133 Drive backplane power cabling HP Apollo r2600 Chassis CO eiis D Powereablefordives SSCS 3 Power cable for Node 3 and Nodoa 4 PDB passthrough cable SS HP Apollo r2200 Chassis CCCCCCCE e A e occecccc oe tem Deseripfion Oo Power cable for Node 1 and Node 2 Cabling 134 tem Descriphion OOOO Power cable for drives Power cable for Node 3 and Node 4 PDB pass through cable RCM 2 0 cabling Cabling 135 Fan cabling E a d i bra we ay eko H JE y Rb d q WI amor 0 meet pl lol Le IL To we e emeng LB kees Gi SC oh r i ge EI 1 Aen Description S n fem 2 fremme ms SSCSC S CECR e 4 CCS Cabling 136 Node cabling Storage cabling B140i 1U node SATA cabling Cabling 137 Mini SAS H240 2U node cabling ZE a L pil Mini SAS P440 P840 cabling HP P440 Smart Array controller installed in a 1U node Cabling 138 HP P840 Smart Array controller installed in a 2U node Graphic card coprocessor cabling NOTE Graphic card coprocessor cabli
65. existing front I O bracket from the second coprocessor Hardware options installation 119 15 Install two support brackets onto the second corprocessor 17 Connect the dual graphic card power cable to the second coprocessor Hardware options installation 120 18 Install the riser cage bracket 20 Install the three slot riser cage assembly and then secure it with six T 10 screws Three slot PCI riser cage assembly options on page 93 21 Install the node into the chassis Installing a node into the chassis on page 60 22 Connect all peripheral cables to the nodes 23 Power up the node Power up the nodes on page 31 M 2 SATA SSD enablement board The M 2 SATA SSD enablement board can only be installed on the single slot left PCI riser cage assembly and the single slot 2U node PCI riser cage assembly Hardware options installation 121 For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component 1 St Ss Se N Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface Do one of the following a Remove the single slot left PCI riser cage assembly on page 48 b Remove the single slot 2U node PCI riser cage assembly on page 51 If installed
66. f the art operating systems e Enabled If Enabled USB 3 0 capable devices operate at USB 3 0 speeds at all times including the pre boot environment when in UEFI Boot Mode This mode should not be used with operating systems that do not support USB 3 0 If operating in Legacy Boot BIOS Mode the USB 3 0 ports cannot function in the pre boot environment and are not bootable e Disabled If configured for Disabled USB 3 0 capable devices function at USB 2 0 speeds at all times The pre OS behavior of the USB ports is configurable in System Utilities so that the user can change the default operation of the USB ports For more information see the HP UEFI System Utilities User Guide for HP ProLiant Gen Servers on the HP website hitp www hp com go ProLiantUEFI docs External USB functionality HP provides external USB support to enable local connection of USB devices for node administration configuration and diagnostic procedures For additional security external USB functionality can be disabled through USB options in UEFI System Utilities Redundant ROM support The node enables you to upgrade or configure the ROM safely with redundant ROM support The node has a single ROM that acts as two separate ROM images In the standard implementation one side of the ROM contains the current ROM program version while the other side of the ROM contains a backup version NOTE The server ships with the same version programmed on each side
67. ffle o IU air baffle o 2U air baffle Install the air baffle 1 Install the air baffle Operations 42 o IU air baffle o 2U air baffle Install any removed PCI riser cage assemblies PCI riser cage assembly options on page 84 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the node St Ze e Power up the node Power up the nodes on page 31 Remove the bayonet board assembly 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the node from the chassis on page 32 4 Place the node on a flat level surface Operations 43 5 Ifinstalled in a 2U node remove the FlexibleL OM 2U node riser cage assembly FlexibleLOM 2U node riser cage assembly on page 52 6 If installed ina 2U node remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 If a graphic card coprocessor power cable is installed disconnect it from the bayonet board If a B140i SATA cable is installed disconnect it from the connectors on the system board Remove the bayonet board assembly from the node 1U bayonet board assembly O eat EX i gdi m Pr ei Kr o 2U bayonet board assembly Install the bayonet board assembly 1 Install the bayonet board assembly into the node Operations 44 o 1U bayonet board assembly o 2U bayonet board ass
68. g HP Insight Online see the HP Insight Online User s Guide on the HP website http www hp com go insightremotesupport docs Intelligent Provisioning Intelligent Provisioning is a single server deployment tool embedded in HP Proliant Gen8 and later servers that simplifies HP ProLiant server setup providing a reliable and consistent way to deploy HP ProLiant server configurations Software and configuration utilities 146 e Intelligent Provisioning assists with the OS installation process by preparing the system for installing off the shelf and HP branded versions of operating system software and integrating optimized HP ProLiant server support software e Intelligent Provisioning provides maintenance related tasks using the Perform Maintenance window e Intelligent Provisioning provides installation help for Microsoft Windows Red Hat and SUSE Linux and VMware operating systems For specitic OS support see the HP Intelligent Provisioning Release Notes on the HP website http www hp com go intelligentprovisioning docs For more information about Intelligent Provisioning software see the HP website hito www hp com go intelligentprovisioning For Intelligent Provisioning recovery media downloads see the Resources tab on the HP website http www hp com go ilo For consolidated drive and firmware update packages see the HP Smart Update Server Firmware and Driver Updates page on the HP website http www hp com go SmartU
69. g Toolkit for Windows and Linux is a server deployment product that delivers an unattended automated installation for high volume server deployments The Scripting Toolkit is designed to support ProLiant BL ML DL SL and XL servers The toolkit includes a modular set of utilities and important documentation that describes how to apply these tools to build an automated server deployment process The Scripting Toolkit provides a flexible way to create standard server configuration scripts These scripts are used to automate many of the manual steps in the server contiguration process This automated server configuration process cuts time from each deployment making it possible to scale rapid high volume server deployments For more information and to download the Scripting Toolkit see the HP website http www hp com go ProLiant STK HP Service Pack for ProLiant SPP is a comprehensive systems software drivers and firmware solution delivered as a single package with major server releases This solution uses HP SUM as the deployment tool and is tested on all supported HP ProLiant servers including HP ProLiant Gen8 and later servers SPP can be used in an online mode on a Windows or Linux hosted operating system or in an offline mode where the server is booted to an operating system included on the ISO file so that the server can be updated automatically with no user interaction or updated in interactive mode For more information or to dow
70. g information available before you call HP Active Health System log HP ProLiant Gen8 or later products Download and have available an Active Health System log for 7 days before the failure was detected For more information see the HP iLO 4 User Guide or HP Intelligent Provisioning User Guide on the HP website http www hp com go ilo docs Onboard Administrator SHOW ALL report for HP BladeSystem products only For more information on obtaining the Onboard Administrator SHOW ALL report see the HP website http www hp com go OAlog Technical support registration number if applicable Product serial number Product model name and number Product identification number Applicable error messages Add on boards or hardware Third party hardware or software Operating system type and revision level HP contact information For United States and worldwide contact information see the Contact HP website http www hp com go assistance In the United States To contact HP by phone call 1 800 334 5144 For continuous quality improvement calls may be recorded or monitored If you have purchased a Care Pack service upgrade see the Support amp Drivers website hitp www8 hp com us en supportdrivers html If the problem cannot be resolved at the website call 1 800 633 3600 For more information about Care Packs see the HP website http pro ag sama houston hp com services cache 10950 0 0 225 121 html Support and ot
71. ge 60 14 Connect all peripheral cables to the nodes 15 Power up the node Power up the nodes on page 31 Installing two Intel coprocessors in a three slot PCI riser cage assembly For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go as To install the component Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 aS Pe Ze 2 Set the graphic card coprocessor power setting switch to the correct settings based on the power consumption of the coprocessor For more information see the documentation that ships with the graphic card option Hardware options installation 117 7 Remove the riser cage bracket 8 Remove the two top PCI blanks from the riser cage assembly 9 Turn the riser cage assembly over and lay it along the right side of the node 10 Remove the existing rear support brackets from the first and second coprocessors Hardware options installation 118 11 Install one support bracket onto the rear of the first coprocessor 13 Connect the dual graphic card coprocessor power cable to the first coprocessor 14 Remove the
72. he node supports FBWC FBWC consists of a cache module and an HP Smart Storage Battery Pack The DDR cache module buffers and stores data being written by an integrated Gent P series Smart Array Controller CAUTION The cache module connector does not use the industry standard DDR3 mini DIMMs Do not use the controller with cache modules designed for other controller models because the controller can malfunction and you can lose data Also do not transfer this cache module to an unsupported controller model because you can lose data Hardware options installation 96 AA CAUTION To prevent a node malfunction or damage to the equipment do not add or remove the battery pack while an array capacity expansion RAID level migration or stripe size migration IS in progress CAUTION After the node is powered down wait for 30 seconds and then check the amber LED before unplugging the cable from the cache module If the amber LED flashes atter 30 seconds do not remove the cable from the cache module The cache module is backing up data Data will be lost if the cable is detached when the amber LED is still flashing Storage controller installation guidelines To maintain optimal thermal conditions and efficiency HP recommends the following guidelines e Install one storage controller per node e Install the HP H240 host bus adapter in the single slot left PCI riser cage assembly or the single slot 2U node PCI riser cage assembly e In
73. hem 3 i i DREES SE Mini SAS connector 2 SATA x4 Pe x24 ser boord comeco 1 For more information on the riser board slots supported by the onboard PCI riser connectors see PCIe riser board slot definitions on page 27 System maintenance switch Off iLO security is enabled On iLO security is disabled Off System configuration can be changed On System configuration is locked Component identification 17 S5 Off Off Power on password is enabled On Power on password is disabled S Off Off No function On ROM reads system configuration as invalid Off Set default boot mode to UEFI On Set default boot mode to legacy 2 Reserved gt s9 Reserved gt sio Reserved gt SU Reserved gt s2 Reserved To access the redundant ROM set S1 S5 and S6 to on When the system maintenance switch position 6 is set to the On position the system is prepared to erase all system configuration settings from both CMOS and NVRAM AA CAUTION Clearing CMOS and or NVRAM deletes configuration information Be sure to properly configure the server or data loss could occur IMPORTANT Before using the S7 switch to change to Legacy BIOS Boot Mode be sure the HP Dynamic Smart Array B140i Controller is disabled Do not use the B140i controller when the server is in Legacy BIOS Boot Mode NMI functionality An NMI crash dump creates a crash dump log before resetting a system which
74. her resources 167 Acronyms and abbreviations ABEND abnormal end ACU Array Configuration Utility ADM Advanced Data Mirroring AMP Advanced Memory Protection ASHRAE American Society of Heating Refrigerating and Air Conditioning Engineers ASR Automatic Server Recovery CSA Canadian Standards Association CSR Customer Self Repair DDR double data rate DPC DIMMs per channel EAC EuroAsian Economic Commission FBWC flash backed write cache Acronyms and abbreviations 168 GPU graphics processing unit HP APM HP Advanced Power Manager HP SIM HP Systems Insight Manager HP SSA HP Smart Storage Administrator HP SUM HP Smart Update Manager IEC International Electrotechnical Commission iLO Integrated Lights Out IML Integrated Management Log ISO International Organization for Standardization LFF large form factor LOM LAN on Motherboard LRDIMM load reduced dual in line memory module NMI nonmaskable interrupt NVRAM nonvolatile memory Acronyms and abbreviations 169 OA Onboard Administrator PCIe Peripheral Component Interconnect Express PDU power distribution unit POST Power On Self Test RBSU ROM Based Setup Utility RCM Rack control management RDIMM registered dual in line memory module RDP Remote Desktop Protocol RPS redundant power supply SAS serial attached SCSI SATA serial ATA SFF smal
75. ide of the node Connect the power cable to the first graphic card Install the first graphic card in the front of the riser cage assembly Install the second graphic card into the rear of the riser cage assembly Connect the power cable to the second graphic card If installing two NVIDIA Tesla K40 GPUs connect the 2 pin graphic card adapter cables to the graphic cards and the riser board Hardware options installation 105 16 Connect the power cable to the bayonet board 17 Install the riser cage blank 18 Install the three slot riser cage assembly and then secure it with six T 10 screws Three slot PCI riser cage assembly options on page 93 19 Install the node into the chassis Installing a node into the chassis on page 60 20 Connect all peripheral cables to the nodes 21 Power up the node Power up the nodes on page 31 NVIDIA Tesla K40 12GB Module Enablement Kit The enablement kit is for the following contigurations e Installing one K40 12GB module in the FlexibleLOM 2U node PCI riser cage assembly on page 107 Hardware options installation 106 Installing two K40 12GB modules in a three slot PCI riser cage assembly or three slot GPU direct PCI riser cage assembly on page 10 Installing one K40 12GB module in the FlexibleLOM 2U node PCI riser cage assembly For more information about product features specifications options configurations and compatibility see the product Quick
76. irements of your facility AA CAUTION Protect the server from power fluctuations and temporary interruptions with a regulating uninterruptible power supply This device protects the hardware from damage caused by power surges and voltage spikes and keeps the system in operation during a power failure When installing more than one server you might need to use additional power distribution devices to safely provide power to all devices Observe the following guidelines e Balance the server power load between available AC supply branch circuits e Do not allow the overall system AC current load to exceed 80 of the branch circuit AC current rating e Do not use common power outlet strips for this equipment e Provide a separate electrical circuit for the server For more information on the hotplug power supply and calculators to determine server power consumption in various system configurations see the HP Power Advisor website http www hp com go hppoweradvisor Electrical grounding requirements The server must be grounded properly for proper operation and safety In the United States you must install the equipment in accordance with NFPA 70 1999 Edition National Electric Code Article 250 as well as any local and regional building codes In Canada you must install the equipment in accordance with Canadian Standards Association CSA C22 1 Canadian Electrical Code In all other countries you must install the equipment in accordance
77. is not responding Crash dump log analysis is an essential part of diagnosing reliability problems such as failures of operating systems device drivers and applications Many crashes freeze a system and the only available action for administrators is to restart the system Resetting the system erases any information which could support problem analysis but the NMI feature preserves that intormation by performing a memory dump before a system reset To force the system to invoke the NMI handler and generate a crash dump log do one of the following e Use the iLO Virtual NMI feature e Short the NMI header System board components on page 16 For more information see the HP website http www hp com support NMI Component identification 18 DIMM slot locations DIMM slots are numbered sequentially 1 through 8 for each processor The supported AMP modes use the letter assignments for population guidelines gp m Gall ala Here Il Il gem Dn On Il Il en 2 Fan orl d do NOTE The arrow indicates the front of the chassis Fan locations Drive numbering Component identification 19 AA CAUTION To prevent improper cooling and thermal damage do not operate the chassis unless all bays are populated with a component or a blank NOTE A storage cable option must be installed in a node for the node to correspond to drives in the chassis HP Ap
78. l form factor SIM Systems Insight Manager SPP HP Service Pack for ProLiant Acronyms and abbreviations 170 SUV serial USB video TPM Trusted Platform Module UEFI Unified Extensible Firmware Interface UID unit identification USB universal serial bus VCA Version Control Agent VCRM Version Control Repository Manager VM Virtual Machine Acronyms and abbreviations 171 Documentation feedback HP is committed to providing documentation that meets your needs To help us improve the documentation send any errors suggestions or comments to Documentation Feedback mailto docsteedbackQhp com Include the document title and part number version number or the URL when submitting your feedback Documentation feedback 172 Index A access panel 36 Active Health System 143 144 ACU Array Configuration Utility 152 Advanced ECC memory 75 76 Advanced ECC support 75 airflow requirements 56 Array Configuration Utility ACU 152 ASR Automatic Server Recovery 152 authorized reseller 163 167 Automatic Server Recovery ASR 152 battery replacement notice 161 Belarus Kazakhstan Russia marking 161 BIOS upgrade 143 boot options 149 151 BSMI notice 161 buttons 9 buttons front panel 9 C Cable guard 133 cables 133 cabling 133 cabling front LED 133 cache module 140 Care Pack 54 146 157 167 cautions 163 Change Control 149 152 157 chassis components 9 10 11
79. leLOM FlexibleLOM slot PCle3 x8 lor Processor e Single slot 2U node PCI riser cage assembly Form factor Slotnumber Slot description Low profile PCle card 1 PCle3 x16 16 8 4 1 for Processor Component identification 28 e FlexibleLOM 2U node riser cage assembly a CT ec slot PCle3 x8 for Processor 1 pe deaan or graphic PCle3 x16 16 8 4 1 for card Processor 1 e Three slot PCI riser cage assembly Slot description PCle3 x16 16 8 4 1 for Processor Storage controller or graphic 3 card PCle3 x16 16 8 4 1 for Processor 2 Low profile PCle NIC card PCle3 x16 16 8 4 1 for Processor 2 Graphic card Component identification 29 e Three slot GPU direct PCI riser cage assembly Slot description PCle3 x16 16 8 4 1 for Processor 2 Storage controller or graphic card PCle3 x16 16 8 4 1 for Processor 2 9 Low profile PCle NIC card 2 PCle3 x16 16 8 4 1 for Processor 2 Graphic card Component identification 30 Operations Power up the nodes The SL XL Chassis Firmware initiates an automatic power up sequence when the nodes are installed If the default setting is changed use one of the following methods to power up each node e Use a virtual power button selection through iLO e Press and release the Power On Standby button When the node goes from the standby mode to the full power mode the node power LED changes from amb
80. local HP Insight Remote Support user interface or the web based view in HP Insight Online For more information see HP Insight Remote Support Release Notes on the HP website http www hp com go insightremotesupport docs HP Insight Online direct connect When you use the embedded Remote Support functionality with HP ProLiant Gen8 and later server models and HP BladeSystem c Class enclosures you can register a node or chassis to communicate directly to HP Insight Online without the need to set up an HP Insight Remote Support centralized Hosting Device in your local environment HP Insight Online will be your primary interface for remote support information For more information see the product documentation on the HP website http www hp com go insightremotesupport docs HP Insight Online HP Insight Online is a capability of the HP Support Center portal Combined with HP Insight Remote Support central connect or HP Insight Online direct connect it automatically aggregates device health asset and support information with contract and warranty information and then secures it in a single personalized dashboard that is viewable from anywhere at any time The dashboard organizes your IT and service data to help you understand and respond to that information more quickly With specific authorization from you an authorized HP Channel Partner can also view your IT environment remotely using HP Insight Online For more information about usin
81. mber and product ID After you replace the system board you must re enter the node serial number and the product ID 1 During the node startup sequence press the F9 key to access UEFI System Utilities 2 Select the System Configuration gt BIOS Platform Configuration RBSU gt Advanced Options gt Advanced System ROM Options gt Serial Number and then press the Enter key 3 Enter the serial number and press the Enter key The following message appears The serial number should only be modified by qualified service personnel This value should always match the serial number located on the chassis Press the Enter key to clear the warning Enter the serial number and press the Enter key Select Product ID The following warning appears Warning The Product ID should ONLY be modified by qualified service personnel This value should always match the Product ID located on the chassis Enter the product ID and press the Enter key Press the F10 key to contirm exiting System Utilities The node automatically reboots Software and configuration utilities 151 Utilities and features HP Smart Storage Administrator HP SSA is a configuration and management tool for HP Smart Array controllers Starting with HP ProLiant Genf servers HP SSA replaces ACU with an enhanced GUI and additional configuration features HP SSA exists in three interface formats the HP SSA GUI the HP SSA CLI and HP SSA Scripting Although all formats pr
82. move the single slot 2U node PCI riser cage assembly AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansion board installed FlexibleLOM 2U node riser cage assembly To remove the component 1 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface po Remove the Flexible OM 2U node riser cage assembly Operations 52 Three slot PCI riser cage assemblies NOTE The three slot PCI riser cage assembly and the three slot GPU direct PCI riser cage assembly share the same riser cage but have a different riser board For more information on the riser board slot specifications see PCle riser board slot definitions on page 27 To remove the component 1 Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface St Ss St 9 Remove the three slot riser cage assembly AA CAUTION To prevent improper cooling and thermal damage do not operate the node unless all PCI riser cages or rear I O blanks are installed and do not operate the node unless all PCI slots have either an expansion slot cover or an expansio
83. mponent identification 24 RCM module components wm e mnie tem Description Ly Ly IMPORTANT Use either the HP APM port or an iLO port to connect to a network Having both ports connected at the same time results in a loopback condition IMPORTANT Do not connect both iLO ports to the network at the same time Only one iLO port can be connected to the network while the other iLO port can be used only as a connection to a second enclosure Having both ports connected at the same time results in a loopback condition Component identification 25 RCM module LEDs iLO activity LED Green or flashing green Network activity Of No network activity 9 iLO link LED Green Linked to network Off No network connection 3 iLO link LED Green Linked to network Of No network connection 4 iLO activity LED Green or flashing green Network activity Of No network activity Component identification 26 PCle riser board slot definitions e Single slot left PCI riser cage assembly Form factor Slotnumber Slot description Low profile PCle card 1 PCle3 x16 16 8 4 1 for Processor e Single slot 1U node right PCI riser cage assembly Low profile PCle NIC card 2 PCle3 x16 16 8 4 1 for Processor 2 Component identification 27 e FlexibleLOM 1U node riser cage assembly el 1 Xi Eeer 0 ge Les SES ye a eee aly Form factor Slotnumber Slot description Flexib
84. n board installed Operations 53 Setup Installation overview To set up and install the HP Apollo 2000 System 1 Set up and install the rack For more information see the documentation that ships with the rack 2 Prepare the chassis Preparing the chassis on page 58 3 Install any hardware options into the chassis and nodes Hardware options installation on page 64 NOTE Install the chassis into the rack before installing drives power supplies the RCM module or nodes Install the chassis into the rack Installing the chassis into the rack on page 59 Install all nodes drives and power supplies Chassis component installation on page 60 Power up the chassis Powering up the chassis on page 62 Install an operating system Installing the operating system on page 62 Install the system software Installing the system software on page 63 2 tb YS Register the server Registering the server on page 63 Optional services Delivered by experienced certitied engineers HP Care Pack services help you keep your servers up and running with support packages tailored specifically for HP ProLiant systems HP Care Packs let you integrate both hardware and software support into a single package A number of service level options are available to meet your needs HP Care Pack Services offer upgraded service levels to expand your standard product warranty with easy to buy easy to use support packages that h
85. n you select a file you are prompted to enter the boot option description which is then displayed in the Boot menu as well as any optional data to be passed to an EFI application e Boot to System Utilities Atter pre POST the boot options screen appears During this time you can access the System Utilities by pressing the F9 key e Choose between supported modes Legacy BIOS Boot Mode or UEFI Boot Mode LY IMPORTANT If the default boot mode settings are different than the user defined settings the system may not boot the OS installation if the defaults are restored To avoid this issue use the User Defined Defaults feature in UEFI System Utilities to override the factory default settings For more information see the HP UEFI System Utilities User Guide for HP Proliant Gen9 Servers on the HP website http www hp com go ProLiantUEFI docs Restoring and customizing configuration settings You can reset all configuration settings to the factory default settings or you can restore system default configuration settings which are used instead of the factory default settings You can also contigure detault settings as necessary and then save the contiguration as the custom detault configuration When the system loads the default settings it uses the custom default settings instead of the factory defaults Secure Boot configuration Secure Boot is integrated in the UEFI specification on which the HP implementation of UEFI is based Secur
86. nce section of the HP Intelligent Provisioning User Guide and online help To install an operating system on the node use one of the following methods e Manual installation Insert the operating system CD into the USB attached DVD ROM drive user provided and reboot the node You must download the HP Service Pack for ProLiant from the SPP download site http www hp com go spp download and create SPP media so that you can install the drivers e Remote deployment installation Use Insight Control server provisioning for an automated solution to remotely deploy an operating system Setup 62 For additional system software and firmware updates download the HP Service Pack for ProLiant from the HP website hito www hp com go spp download Software and firmware should be updated before using the node for the first time unless any installed software or components require an older version For more information on using these installation methods see the HP website htto www hp com go ilo Installing the system software To access and configure Intelligent Provisioning on a single node 1 Access Intelligent Provisioning by rebooting the server and pressing F10 2 The first time you log into Intelligent Provisioning follow the steps to set preferences and activate Intelligent Provisioning From the Home screen click Perform Maintenance and then click Firmware Update Ensure the latest drivers are available for installation
87. nded for any reason Setup 57 WARNING To reduce the risk of personal injury or equipment damage when unloading a rack e Atleast two people are needed to safely unload the rack from the pallet An empty 42U rack can weigh as much as 115 kg 253 Ib can stand more than 2 1 m 7 ft tall and might become unstable when being moved on its casters e Never stand in front of the rack when it is rolling down the ramp trom the pallet Always handle the rack from both sides AA WARNING To reduce the risk of personal injury or damage to the equipment adequately stabilize the rack before extending a component outside the rack Extend only one component at a time A rack may become unstable if more than one component is extended WARNING When installing a server in a telco rack be sure that the rack frame is adequately secured at the top and bottom to the building structure Identifying the contents of the server shipping carton Unpack the server shipping carton and locate the materials and documentation necessary for installing the server All the rack mounting hardware necessary for installing the server into the rack is included with the rack or the server The contents of the server shipping carton include e Server e Power cord e Rack rail hook and loop strap e Rack mounting hardware kit e Printed setup documentation In addition to the supplied items you might need e 1 25 Torx screwdriver to loosen the shipping
88. nel components Mod ID amp DDC 00070100 Nm NM OE CCI D ma MO NMU OTIS DD TOOME AE UD UD TB OO ODIDE D EMEA SC PE bag EE EE Si Kl SH bE nt PEER passe MAO gi el I H 1 CE a To RES OOO eO Node serial number and ilO label pull tab USB 3 0 connector 3 Dedicated ilO port optional NIC connector 1 NIC connector 2 e 2U node rear panel components nm eg 7 Node serial number and iLO label pull tab EE E connector USB 3 0 connector Dedicated iLO port optional NIC connector 1 Component identification 13 em ec pb NIC connector 2 Node rear panel LEDs and buttons e 1U node Health LED Do not remove LED Solid green System on Flashing green 1 Hz cycle per sec Performing power on sequence Solid amber System in standby Off No power present Solid blue Activated Flashing blue e 1 Hz cycle per sec Remote management or firmware upgrade in progress e 4 Hz cycle per sec iLO manual soft reboot sequence initiated 8 Hz cycle per sec iLO manual hard reboot sequence in progress Off Deactivated Solid green Normal Flashing green 1 Hz cycle per sec ilO is rebooting Flashing amber System degraded Flashing red 1 Hz cycle per sec System criticalt Flashing white 1 Hz cycle per sec Do not remove the node Removing the node may terminate the current operation and cause data loss Off The node can be
89. net board assembly on page 44 4 If removed connect the graphic card coprocessor cable to the bayonet board 5 Install any removed PCI riser cage assemblies PCI riser cage assembly options on page 84 6 Install the node into the chassis Installing a node into the chassis on page 60 7 Connect all peripheral cables to the nodes e Power up the node Power up the nodes on page 31 Hardware options installation 79 Mini SAS H240 1U node cable option In a 1U node the HP H240 host bus adapter can only be installed in the single slot left PCI riser cage assembly For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com 90 9s To install the component 1 ST Gs DN Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Do one of the following o Remove the 1U left rear I O blank on page 38 o Remove the single slot left PCI riser cage assembly on page 48 If a B140i SATA cable is installed disconnect it from the connectors on the system board Remove the bayonet board assembly from the node Remove the bayonet board assembly on page 43 Remove the bayonet board bracket from the bayonet board Rem
90. nfrastructure and better use of today s server storage and networking technology For more information see the HP website http www hp com services consulting Our support portfolio covers services for HP server storage and networking hardware and software plus the leading industry standard operating systems Let us work proactively with you to prevent problems Our flexible choices of hardware and software support coverage windows and response times help resolve problems faster reduce unplanned outages and free your staff for more important tasks For more information see the HP website http www hp com services support Tap into our knowledge expertise innovation and world class services to achieve better results Access and apply technology in new ways to optimize your operations and you ll be positioned for success Change control and proactive notitication HP offers Change Control and Proactive Notification to notify customers 30 to 60 days in advance of upcoming hardware and software changes on HP commercial products For more information refer to the HP website http www hp com go pcn Software and configuration utilities 157 System battery It the node no longer automatically displays the correct date and time then replace the battery that provides power to the real time clock Under normal use battery life is 5 to 10 years WARNING The computer contains an internal lithium manganese dioxide a vanadium pe
91. ng may vary slightly depending on the type of graphic coprocessor installed Single graphic card coprocessor power cabling Cabling 139 2 pin graphic card adapter cabling for NVIDIA K40 GPUs only FlexibleL OM 2U node riser cage assembly FBWC module cabling The FBWC solution is a separately purchased option This node only supports FBWC module installation when an HP Smart Array P Series controller is installed Depending on the controller option installed the actual storage controller connectors might look different from what is shown in this section Cabling 140 HP P440 Smart Array controller in a single slot left PCI riser cage assembly Cabling 141 HP P840 Smart Array controller in a three slot PCI riser cage assembly Cabling 142 Software and configuration utilities Server mode The software and configuration utilities presented in this section operate in online mode offline mode or in both modes Software or configuration utility Server mode HP iLO on page 143 Online and Offline Active Health System on page 144 Online and Offline HP RESTful API support for HP iLO on page 145 Online and Offline Integrated Management Log on page 145 Online and Offline Intelligent Provisioning on page 146 Offline geg HP Service Pack for ProLiant on page 148 Online and Offline HP Smart Update Manager on page 148 Online and Offline HP UEFI System Utilities on page 149 Offline
92. ng the node may terminate the current operation and cause data loss Off The node can be removed 5 iLO activity LED Green or flashing green Network activity Ott No network activity iLO link LED Green Linked to network Off No network connection 7 NIC link LED Green Linked to network Of No network connection NIC activity LED Green or flashing green Network activity Of No network activity When the LEDs described in this table flash simultaneously a power fault has occurred For more information see Power fault LEDs on page 16 Facility power is not present power cord is not attached no power supplies are installed power supply failure has occurred or the front I O cable is disconnected If the health LED indicates a degraded or critical state review the system IML or use iLO to review the system health status Power fault LEDs The following table provides a list of power fault LEDs and the subsystems that are affected Not all power faults are used by all servers Removable HP Flexible Smart Array controller Smart SAS HBA controller Power backplane or storage backplane 8 flashes Power supply 9 flashes System board components NOTE HP ProLiant XL170r and XL190r Gen Server Nodes share the same system board Component identification 16 Description Bayonet board slot DIMMs for processor 2 DIMMs for processor PCle x40 riser board connector System maintenance switch
93. ning For more information on the HP UEFI System Utilities see the HP UEFI System Utilities User Guide for HP ProLiant Gen Servers on the HP website hitp www hp com go ProLiantUEFI docs Scan the QR code located at the bottom of the screen to access mobile ready online help for the UEFI System Utilities and UEFI Shell For on screen help press F1 Using HP UEFI System Utilities To use the System Utilities use the following keys om Key Access System Utilities F9 during server POST Up and Down arrows Select items Access Help for a highlighted configuration F1 option Scan the QR code on the screen to access online help for the UEFI System Utilities and UEFI Shell Default configuration settings are applied to the server at one of the following times e Upon the first system power up e After defaults have been restored Default contiguration settings are sufficient for typical server operations however you can modity configuration settings as needed The system prompts you for access to the System Utilities each time the system is powered up Flexible boot control This feature enables you to do the following e Add Boot Options o Browse all FAT16 and FAT32 file systems o Select an X64 UEFI application with an EFI extension to add as a new UEFI boot option such as an OS boot loader or other UEFI application Software and configuration utilities 149 The new boot option is appended to the boot order list Whe
94. nload SPP see one of the following pages on the HP website e HP Service Pack for Proliant download page http www hp com go spp e HP Smart Update Server Firmware and Driver Updates page http www hp com go SmartUpdate HP Smart Update Manager HP SUM is a product used to install and update firmware drivers and systems software on HP ProLiant servers HP SUM provides a GUI and a command line scriptable interface for deployment of systems software for single or one to many HP ProLiant servers and network based targets such as iLOs OAs and VC Ethernet and Fibre Channel modules For more information about HP SUM see the product page on the HP website http www hp com go hpsum To download HP SUM see the HP website hitp www hp com go hpsum download To access the HP Smart Update Manager User Guide see the HP SUM Information Library http www hp com go hpsum documentation Software and configuration utilities 148 HP UEFI System Utilities The HP UEFI System Utilities is embedded in the system ROM The UEFI System Utilities enable you to perform a wide range of configuration activities including e Configuring system devices and installed options e Enabling and disabling system features e Displaying system information e Selecting the primary boot controller e Configuring memory options e Selecting a language e Launching other pre boot environments such as the Embedded UEFI Shell and Intelligent Provisio
95. nstalling operating system 62 Integrated Lights Out iLO 143 145 Integrated Management Log IML 145 Intelligent Provisioning 63 143 146 147 149 internal USB connector 152 L LEDs drive 22 LEDs power supply 16 LEDs troubleshooting 160 M M 2 SATA SSD enablement board 121 memory 74 76 memory configurations 76 memory subsystem architecture 74 memory Advanced ECC 75 memory configuring 75 76 memory online spare 76 N NIC connectors 13 NMI functionality 18 NMI header 18 d online spare memory 76 77 operating system installation 157 operating systems 156 157 operations 31 optimum environment 55 options installation 64 P PCI riser cage 84 phone numbers 167 population guidelines Advanced ECC 76 power requirements 56 166 power supply 166 powering down 31 processor 123 Product ID 151 Q QuickSpecs 143 R Rack Control Managment RCM module 67 rack installation 54 rack warnings 57 rear panel components 11 13 rear panel LEDs 12 14 redundant ROM 153 registering the server 63 regulatory compliance notices 161 removing node from chassis 32 requirements power 56 166 requirements temperature 56 ROM Based Setup Utility RBSU 149 ROMPag utility 153 S safety considerations 153 161 163 safety information 153 161 scripted installation 148 scripting toolkit 143 148 security bezel installing 64 security bezel removing 35 serial number 151 server features and opti
96. nt identification 10 EE Power On Standby button and Solid green System on system power LED Node 3 Flashing green Performing power on sequence Solid amber System in standby Off No power present When the LEDs described in this table flash simultaneously a power fault has occurred For more information see Power fault LEDs on page 16 Facility power is not present power cord is not attached no power supplies are installed power supply failure has occurred or the front I O cable is disconnected t If the health LED indicates a degraded or critical state review the system IML or use iLO to review the system health status Chassis rear panel components e Four 1U nodes Oo 000 0960 9 i a A ETNE ESCORT r NE FR nt TITI tal HEH 89 DREES e Two 2U nodes o ee d NM Ja TG d lg T FACE mms TS ie tin nm eiis SC Component identification 11 mm Jee O e Power supply 2 LED Solid green Normal Of One or more of the following conditions exists Power is unavailable Power supply failed Power supply is in standby mode Power supply error Power supply 1 LED Solid green Normal Off One or more of the following conditions exists e Power is unavailable Power supply failed e Power supply is in standby mode Power supply error Component identification 12 Node rear panel components e 1U node rear pa
97. ntoxide or an alkaline battery pack A risk of fire and burns exists if the battery pack is not properly handled To reduce the risk of personal injury e Do not attempt to recharge the battery e Do not expose the battery to temperatures higher than 60 C 140 F e Do not disassemble crush puncture short external contacts or dispose of in fire or water e Replace only with the spare designated for this product To remove the component Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface Remove any installed PCI riser cage assemblies Remove the PCI riser cage assembly on page 48 Locate the battery on the system board System board components on page 16 Pe SS P If the system battery is secured by a metal tab do the following a Use your finger or a small flat bladed nonconductive tool to press the metal tab This will partially release the battery from the socket b Remove the battery ly IMPORTANT Replacing the system board battery resets the system ROM to its default configuration After replacing the battery reconfigure the system through RBSU To replace the component reverse the removal procedure System battery 158 For more information about battery replacement or proper disposal contact an authorized reseller or an authorized service provider System battery 159 Troubleshoo
98. odes on page 31 Hardware options installation 78 B140i 2U node SATA cable For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com g0 9s To install the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the server node from the chassis Remove the node from the chassis on page 32 4 Place the node on a flat level surface 5 If installed remove the FlexibleLOM 2U node riser cage assembly FlexibleLOM 2U node riser cage assembly on page 52 6 If installed remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 7 Ifa graphic card coprocessor power cable is installed disconnect it from the bayonet board 8 Remove the bayonet board assembly from the node Remove the bayonet board assembly on page 43 9 Remove the bayonet board bracket from the bayonet board Remove the bayonet board bracket on page 46 10 Connect the SATA cable to the system board and bayonet board 1 Route the cable under the padding on the 2U bayonet board and install the bayonet board bracket onto the bayonet board Install the bayonet board bracket on page 47 2 Route and secure the cable under the thin plastic covers 3 Install the bayonet board assembly into the node Install the bayo
99. oftware and configuration utilities 145 HP Insight Remote Support HP strongly recommends that you register your device for remote support to enable enhanced delivery of your HP Warranty HP Care Pack Service or HP contractual support agreement HP Insight Remote Support supplements your monitoring continuously to ensure maximum system availability by providing intelligent event diagnosis and automatic secure submission of hardware event notifications to HP which will initiate a fast and accurate resolution based on your product s service level Notifications can be sent to your authorized HP Channel Partner for onsite service if configured and available in your country For more information see HP Insight Remote Support and Insight Online Setup Guide for ProLiant Servers and BladeSystem c Class Enclosures on the HP website http www hp com go insightremotesupport docs HP Insight Remote Support is available as part of HP Warranty HP Care Pack Service or HP contractual support agreement HP Insight Remote Support central connect When you use the embedded Remote Support functionality with HP ProLiant Genf and later server models and HP BladeSystem c Class enclosures you can register a node or chassis to communicate to HP through an HP Insight Remote Support centralized Hosting Device in your local environment All contiguration and service event information is routed through the Hosting Device This intormation can be viewed by using the
100. ollo r2200 Chassis drive numbering One 1U node corresponds to a maximum of three low profile LFF hot plug drives e Node I corresponds to drives 1 1 through 1 3 e Node 2 corresponds to drives 2 1 through 2 3 e Node 3 corresponds to drives 3 1 through 3 3 e Node 4 corresponds to drives 4 1 through 4 3 One 2U node corresponds to a maximum of six low profile LFF hot plug drives e Node 1 corresponds to drives 1 1 through 2 3 e Node 3 corresponds to drives 3 1 through 4 3 HP Apollo r2600 Chassis drive numbering One 1U node corresponds to a maximum of six SFF HP SmartDrives e Node 1 corresponds to drives 1 1 through 1 6 e Node 2 corresponds to drives 2 1 through 2 6 e Node 3 corresponds to drives 3 1 through 3 6 e Node 4 corresponds to drives 4 1 through 4 6 If a P840 Smart Array controller is installed one 2U node corresponds to a maximum of twelve SFF HP SmartDrives e Node I corresponds to drives 1 1 through 2 6 Component identification 20 e Node 3 corresponds to drives 3 1 through 4 6 est est Eee est tn Zei ee CIR D Len Les Lite Pen Dae Da DEEE Ces 115 One 2U node corresponds to a maximum of eight SFF HP SmartDrives if using the HP Dynamic Smart Array B140i Controller HP H240 Host Bus Adapter or HP P440 Smart Array Controller e Node 1 corresponds to drives 1 1 1 2 1 4 1 5 2 1 2 2 2 3 and 2 5 e Node 3 corresponds to drives 3 1 3 2 3 3 3 5 4 1 4 2 4 4 and 4 5 PIE CSR LR S
101. omponent from the HP website http www hp com go hpsc Save the FWUPDATE flash components to a USB key Set the boot order so the USB key will boot first using one of the following options o Configure the boot order so the USB key is the first bootable device o Press F11 Boot Menu when prompted during system boot to access the One Time Boot Menu This menu allows you to select the boot device for a specific boot and does not modify the boot order contiguration settings Insert the USB key into an available USB port Boot the system The FWUPDATE utility checks the system and provides a choice if more than one exists of available firmware revisions To download the flash components see the HP website http www hp com go hpsc For more information about the One Time Boot Menu see the HP UEFI System Utilities User Guide for HP ProLiant Gen Servers on the HP website http www hp com go ProLiantUEFI docs FWUpdate command from within the Embedded UEFI Shell For systems configured in either boot mode update the firmware l Sp a a Access the System ROM Flash Binary component for your node from the HP Support Center http www hp com go hpsc When searching for the component always select OS Independent to locate the binary file Copy the binary file to a USB media or iLO virtual media Attach the media to the node Boot to Embedded Shell To obtain the assigned file system volume for the USB key enter Map
102. on the encrypted hard drive Enabling the Trusted Platform Module l m M P mp p During the node startup sequence press the F9 key to access System Utilities From the System Utilities screen select System Configuration gt BIOS Platform Configuration RBSU gt Server Security Select Trusted Platform Module Options and press the Enter key Select Enabled to enable the TPM and BIOS secure startup The TPM is fully functional in this mode Press the F10 key to save your selection When prompted to save the change in System Utilities press the Y key Press the ESC key to exit System Utilities Then press the Enter key when prompted to reboot the node Hardware options installation 131 The node then reboots a second time without user input During this reboot the TPM setting becomes effective You can now enable TPM functionality in the OS such as Microsoft Windows BitLocker or measured boot AA CAUTION When a TPM is installed and enabled on the node data access is locked if you fail to follow the proper procedures for updating the system or option firmware replacing the system board replacing a hard drive or modifying OS application TPM settings For more information on firmware updates and hardware procedures see the HP Trusted Platform Module Best Practices White Paper on the HP website hitp www hp com support For more information on adjusting TPM usage in BitLocker see the Microsoft website http techn
103. ons 64 Smart Update Manager 143 148 software 63 156 157 specifications environmental 164 support 167 support and other resources 167 supported operating systems 156 157 system battery 161 163 system board components 16 System Erase Utility 147 Index 174 T technical support 157 167 telephone numbers 167 temperature requirements 56 164 TPM Trusted Platform Module 129 131 troubleshooting 160 troubleshooting resources 160 Trusted Platform Module TPM 129 131 U updating the system ROM 153 154 155 USB support 152 utilities 143 149 152 utilities deployment 143 148 V ventilation 55 Virtualization option 157 W warnings 57 Index 175
104. ore information see the following documents e HP iLO User Guide on the HP website http www hp com go ilo docs e HP Intelligent Provisioning User Guide on the HP website http www hp com go intelligentprovisioning docs HP RESTful API support for HP iLO HP iLO 4 firmware version 2 00 and later includes the HP RESTful API The HP RESTful API is a management interface that server management tools can use to perform configuration inventory and monitoring of an HP ProLiant server via iLO A REST client sends HTTPS operations to the iLO web server to GET and PATCH JSON formatted data and to configure supported iLO and server settings such as the UEFI BIOS settings HP iLO 4 supports the HP RESTful API with HP ProLiant Genf and later servers For more information about the HP RESTful API see the HP website htto www hp com support resttulintertace docs Integrated Management Log The IML records hundreds of events and stores them in an easy to view form The IML timestamps each event with 1 minute granularity You can view recorded events in the IML in several ways including the following e From within HP SIM e From within HP UEFI System Utilities on page 149 e From within the Embedded UEFI shell on page 151 e From within operating system specific IML viewers o For Windows IML Viewer o For Linux IML Viewer Application e From within the iLO web interface e From within HP Insight Diagnostics on page 147 S
105. ormation and overwrites the survey data files to reflect the latest changes in the configuration Survey functionality is installed with every Intelligent Provisioning assisted HP Insight Diagnostics installation or it can be installed through the SPP HP Service Pack for ProLiant on page 148 Erase Utility AA CAUTION Perform a backup before running the Erase Utility The utility sets the system to its original factory state deletes the current hardware configuration information including array setup and disk partitioning and erases all connected hard drives completely Before using this utility see the instructions in the HP Intelligent Provisioning User Guide Use the Erase Utility to erase drives and Active Health System logs and to reset UEFI System Utilities settings Run the Erase Utility if you must erase the system for the following reasons Software and configuration utilities 147 e You want to install a new operating system on a node with an existing operating system e You encounter an error when completing the steps of a factory installed operating system installation To access the Erase Utility click the Perform Maintenance icon from the Intelligent Provisioning home screen and then select Erase For more information about the Erase Utility see the HP Intelligent Provisioning User Guide on the HP website http www hp com go intelligentprovisioning docs Scripting Toolkit for Windows and Linux The Scriptin
106. ove the bayonet board bracket on page 46 If installed disconnect and remove the B140i 1U node SATA cable Remove the PCI slot blank Install the host bus adapter into the riser cage assembly and secure it with one T 10 screw Connect the split ends of the Mini SAS Y cable to the host bus adapter Connect the common end of the Mini SAS Y cable to the bayonet board Install the bayonet board bracket onto the bayonet board Install the bayonet board bracket on page 47 Route and secure the cable under the thin plastic covers Install the bayonet board assembly into the node Install the bayonet board assembly on page 44 Install the single slot left PCI riser cage assembly Single slot left PCI riser cage assembly option on page 85 Install the node into the chassis Installing a node into the chassis on page 60 Hardware options installation 80 19 Connect all peripheral cables to the nodes 20 Power up the node Power up the nodes on page 31 Mini SAS H240 2U node cable option In a 2U node the HP H240 host bus adapter can only be installed in the single slot left PCI riser cage assembly or the single slot 2U node PCI riser cage assembly For more information about product features specitications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component 1 2 3 4 5 Power down the node on page 31 Disconn
107. ovide support for configuration tasks some of the advanced tasks are available in only one format Some HP SSA features include the following e Supports online array capacity expansion logical drive extension assignment of online spares and RAID or stripe size migration e Suggests the optimal configuration for an unconfigured system e Provides diagnostic and SmartSSD Wear Gauge functionality on the Diagnostics tab e For supported controllers provides access to additional features For more information about HP SSA see the HP website hitp www hp com go hpssa Automatic Server Recovery ASR is a feature that causes the system to restart when a catastrophic operating system error occurs such as a blue screen ABEND or panic A system fail safe timer the ASR timer starts when the System Management driver also known as the Health Driver is loaded When the operating system is functioning properly the system periodically resets the timer However when the operating system fails the timer expires and restarts the server ASR increases server availability by restarting the server within a specified time after a system hang You can disable ASR from the System Management Homepage or through UEFI System Utilities USB support HP nodes support both USB 2 0 ports and USB 3 0 ports Both types of ports support installing all types of USB devices USB 1 0 USB 2 0 and USB 3 0 but may run at lower speeds in specific situations e
108. pdate HP Insight Diagnostics HP Insight Diagnostics is a proactive node management tool available in both offline and online versions that provides diagnostics and troubleshooting capabilities to assist IT administrators who verity node installations troubleshoot problems and perform repair validation HP Insight Diagnostics Offline Edition pertorms various in depth system and component testing while the OS is not running To run this utility boot the node using Intelligent Provisioning on page 146 HP Insight Diagnostics Online Edition is a web based application that captures system configuration and other related data needed for effective node management Available in Microsoft Windows and Linux versions the utility helps to ensure proper system operation For more information or to download the utility see the HP website http www hp com servers diags HP Insight Diagnostics Online Edition is also available in the SPP HP Service Pack for ProLiant on page 148 HP Insight Diagnostics survey functionality HP Insight Diagnostics on page 147 provides survey functionality that gathers critical hardware and software information on ProLiant nodes This functionality supports operating systems that are supported by the node For operating systems supported by the node see the HP website http www hp com go supportos If a significant change occurs between data gathering intervals the survey function marks the previous inf
109. phic card 14 Remove the existing front I O bracket from the second graphic card 15 Install the rear and front support brackets onto the second graphic card a Secure the rear support bracket with three T 10 screws Hardware options installation 112 b Secure the front support bracket with three M2 5 screws 16 Install the second graphic card 17 Connect the dual graphic card coprocessor power cable to the graphic cards 18 Connect the 2 pin graphic card adapter cables to the graphic cards and the riser board Hardware options installation 113 19 Install the riser cage bracket 21 22 23 24 Install the three slot riser cage assembly and then secure it with six T 10 screws Three slot PCI riser cage assembly options on page 93 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 Intel Coprocessor Enablement Kit The enablement kit is for the following contigurations Installing one Intel coprocessor in the FlexibleLOM 2U node PCI riser cage assembly on page 115 Hardware options installation 114 e Installing two Intel coprocessors in a three slot PCI riser cage assembly or a three slot GPU direct PCI riser cage assembly Installing two Intel coprocessors in a three slot PCI riser cage assembly on page 117 Installing one Intel coproces
110. powers up Examine the HP Advanced Power Manager for any errors which may prevent installed components from powering up HP Advanced Power Manager optional To install configure and access HP APM see the HP Advanced Power Manager User Guide on the HP website http www hp com go docs Powering on and selecting boot options in UEFI Boot Mode On servers operating in UEFI Boot Mode the boot controller and boot order are set automatically 1 Press the Power On Standby button 2 During the initial boot o To modify the server configuration ROM default settings press the F9 key in the HP ProLiant POST screen to enter the UEFI System Utilities screen By default the System Utilities menus are in the English language o If you do not need to modify the server configuration and are ready to install the system software press the F10 key to access Intelligent Provisioning For more information on automatic configuration see the UEFI documentation on the HP website http www hp com go ProLiantUEFI docs Installing the operating system To operate properly the node must have a supported operating system installed For the latest information on operating system support see the HP website http www hp com go supportos DE 1 IMPORTANT HP ProLiant XL servers do not support operating system installation with Intelligent Provisioning but do support the maintenance features For more information see the Performing Maintena
111. r For more information about accessing a file system from the shell see the HP UEFI Shell User Guide for HP Proliant Gen9 Servers on the HP website http www hp com go ProLiantUEFI docs Software and configuration utilities 154 Change to the file system that contains the System ROM Flash Binary component for your node Enter one of the fsx file systems available such as f50 or fs1 and press Enter Use the ca command to change from the current directory to the directory that contains the binary file Enter fwupdate d BIOS f lt filename gt to flash the system ROM For help on the FWUPDATE command enter the command help fwupdate b Reboot the node A reboot is required after the firmware update for the updates to take effect and for hardware stability to be maintained For more information about the commands used in this procedure see the HP UEFI Shell User Guide for HP ProLiant Gen Servers on the HP website http www hp com go ProLiantUEFI docs Firmware Update application in System Utilities For systems configured in either boot mode update the firmware 1 di SP 2 Se St 8 St Ze Access the System ROM Flash Binary component for your node from the HP Support Center http www hp com go hpsc When searching for the component always select OS Independent to find the component Copy the binary file to a USB media or iLO virtual media Attach the media to the node During POST press F9 to enter System Utilities
112. r removal especially when the chassis is not fastened to the rack WARNING To reduce the risk of personal injury or damage to the equipment you must adequately support the chassis during installation and removal WARNING Always use at least two people to lift the chassis into the rack If the chassis is being loaded into the rack above chest level a third person must assist with aligning the chassis with the rails while the other two people support the weight of the chassis D Power down the system on page 31 2 Disconnect all peripheral cables from the nodes and chassis Lk IMPORTANT Label the drives before removing them The drives must be returned to their original locations Remove all nodes from the chassis Remove the node from the chassis on page 32 If installed remove the security bezel on page 35 Remove all drives Removing the drive on page 35 If installed remove the RCM module on page 33 ef Sr GP Ss Sa Remove all power supplies Remove the power supply on page 33 Operations 34 8 Loosen the thumbscrews and extend the chassis from the rack SC OG ODO E Se 9 Remove the chassis from the rack For more information see the documentation that ships with the rack mounting option 10 Place the chassis on a flat surface Remove the security bezel To access the front panel components unlock and then remove the security bezel Removing the drive AA CAUTION For p
113. r supplies Chassis component installation on page 60 If removed install the security bezel Security bezel option on page 64 If removed install the RCM module Rack control management RCM module on page 67 Connect all peripheral cables to the nodes and chassis eo Ze Se Ze Power up the nodes on page 31 Operations 37 Remove the 1U left rear I O blank Power down the node on page 31 Disconnect all peripheral cables from the node 1 2 3 Remove the node from the chassis on page 32 4 Place the node on a flat level surface 5 Remove the 1U left rear O blank JES Se 7 ee a e ce En I ae se Ri I aaa Install the 1U left rear I O blank 1 Install the 1U left rear I O blank 2 Install the node into the chassis 3 Connect all peripheral cable to the node Operations 38 4 Power up the node Power up the nodes on page 31 Remove the 1U right rear I O blank Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface St e m i Do one of the following o Remove the 1U left rear I O blank on page 38 o Remove the single slot left PCI riser cage assembly on page 48 6 Remove the 1U right rear I O blank Operations 39 Install the 1U right rear I O blank 1 Install the 1U right rear I O blank ETES
114. ral DIMM slot population guidelines e DIMMs may be installed individually Hardware options installation 76 Online spare population guidelines For Online Spare memory mode configurations observe the following guidelines Observe the general DIMM slot population guidelines Each channel must have a valid online spare configuration Each channel can have a different valid online spare configuration Each populated channel must have a spare rank A single dual rank DIMM is not a valid configuration Population order For memory configurations with a single processor or multiple processors DIMMs must be populated sequentially in alphabetical order A through H After installing the DIMMs use the BIOS Platform Configuration RBSU in the UEFI System Utilities to configure supported AMP modes Installing a DIMM St 2 Zb Jet Se Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface If installed in a 2U node remove the FlexibleLOM 2U node riser cage assembly FlexibleLOM 2U node riser cage assembly on page 52 If installed ina 2U node remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 Remove the air baffle on page 41 Open the DIMM slot latches Install the DIMM 10 Install the air baffle on page 42 Hardware options installation 77 Install an
115. removed Component identification 14 wee es D Jee Of No network activity EEE Off No network connection 7 NIC link LED Green Linked to network Off No network connection NIC activity LED Green or flashing green Network activity Off No network activity When the LEDs described in this table flash simultaneously a power fault has occurred For more information see Power fault LEDs on page 16 Facility power is not present power cord is not attached no power supplies are installed power supply failure has occurred or the front I O cable is disconnected t If the health LED indicates a degraded or critical state review the system IML or use iLO to review the system health status e 2U node TDC To ToD CIE ono CI TE TIN om 0D eS Oo CE dd Power button LED Solid green System on Flashing green Performing power on sequence Solid amber System in standby Off No power present UID button LED Solid blue Activated Flashing blue e 1 Hz cycle per sec Remote management or firmware upgrade in progress 4 Hz cycle per sec iLO manual soft reboot sequence initiated 8 Hz cycle per sec iLO manual hard reboot sequence in progress Off Deactivated Component identification 15 mm CS 3 Health LED Solid green Normal Flashing amber System degraded Flashing red System criticalt 4 Do not remove LED Flashing white 1 Hz cycle per sec Do not remove the node Removi
116. roper cooling do not operate the node without the access panel baffles expansion slot covers or blanks installed If the server supports hot plug components minimize the amount of time the access panel is open Operations 35 1 If installed remove the security bezel on page 35 2 Remove the drive o SFF HP SmartDrive o Low profile LFF hot plug drive Remove the chassis access panel Power down the system on page 31 Disconnect all peripheral cables from the nodes and chassis Remove all nodes from the chassis Remove the node from the chassis on page 32 If installed remove the security bezel on page 35 Remove all drives Removing the drive on page 35 If installed remove the RCM module on page 33 Remove all power supplies Remove the power supply on page 33 Remove the chassis from the rack on page 34 d Tr we Se Unlock the access panel latch using the T 15 Torx screwdriver and release the access panel latch m Slide the access panel back about 1 5 cm 0 5 in Operations 36 11 Lift and remove the access panel Install the chassis access panel 1 Install the chassis access panel a Place the access panel and align the pin on the chassis and slide it towards the front of the server b Lock the access panel latch using the T 15 Torx screwdriver Install the chassis into the rack Installing the chassis into the rack on page 59 Install all nodes drives and powe
117. rrors When multi bit errors are detected using Standard ECC the error is signaled to the node and causes the node to halt Advanced ECC protects the node against some multi bit memory errors Advanced ECC can correct both single bit memory errors and 4 bit memory errors if all failed bits are on the same DRAM device on the DIMM Advanced ECC provides additional protection over Standard ECC because it is possible to correct certain memory errors that would otherwise be uncorrected and result in a node failure Using HP Advanced Hardware options installation 75 Memory Error Detection technology the node provides notification when a DIMM is degrading and has a higher probability of uncorrectable memory error Online Spare memory configuration Online spare memory provides protection against degraded DIMMs by reducing the likelihood of uncorrected memory errors This protection is available without any operating system support Online spare memory protection dedicates one rank of each memory channel for use as spare memory The remaining ranks are available for OS and application use If correctable memory errors occur at a rate higher than a specific threshold on any of the non spare ranks the node automatically copies the memory contents of the degraded rank to the online spare rank The node then deactivates the failing rank and automatically switches over to the online spare rank General DIMM slot population guidelines Observe the follo
118. s e Remotely mount high performance Virtual Media devices to the node e Securely and remotely control the power state of the managed node e Implement true Agentless Management with SNMP alerts from HP iLO regardless of the state of the host server e Download the Active Health System log e Register for HP Insight Remote Support e Use iLO Federation to manage multiple servers from one system running the iLO web interface e Use Virtual Power and Virtual Media from the GUI the CLI or the iLO scripting toolkit for many tasks including the automation of deployment and provisioning e Control iLO by using a remote management tool For more information about iLO features see the iLO documentation on the HP website http www hp com go ilo docs The HP iLO 4 hardware and firmware features and functionality such as NAND size and embedded user partition vary depending on the node model For a complete list of supported features and functionality see the HP iLO 4 QuickSpecs on the HP website http h18000 wwwl hp com products quickspecs 14276 div 14276 div pdf Active Health System HP Active Health System provides the following features e Combined diagnostics tools scanners e Always on continuous monitoring for increased stability and shorter downtimes e Rich configuration history e Health and service alerts e Easy export and upload to Service and Support The HP Active Health System monitors and records changes in the
119. screws located inside the node quick release latch rack ears e T 10 T 15 Torx screwdriver e Flathead screwdriver to remove the knockout on the dedicated iLO connector opening e Hardware options Preparing the chassis Before installing the chassis into the rack you must remove the nodes the drives and the power supplies Because a fully populated chassis is heavy removing these components facilitates moving and installing the chassis 1 Remove the power supply on page 33 2 Remove the nodes Remove the node from the chassis on page 32 3 Remove all drives Removing the drive on page 35 Setup 58 Installing hardware options Install any hardware options before initializing the server For options installation information see the option documentation For server specitic information see Hardware options installation on page 64 Installing the chassis into the rack A A A A WARNING Always use at least two people to lift the chassis into the rack If the chassis is being loaded into the rack above chest level a third person must assist with aligning the chassis with the rails while the other two people support the weight of the chassis WARNING The chassis is very heavy To reduce the risk of personal injury or damage to the equipment e Observe local occupational health and safety requirements and guidelines for manual material handling e Remove all installed components from the chassis
120. service providers cannot enable the TPM or the encryption technology For security reasons only the customer can enable these features e When returning a system board for service replacement do not remove the TPM from the system board When requested HP Service provides a TPM with the spare system board Hardware options installation 129 Any attempt to remove an installed TPM from the system board breaks or disfigures the TPM security rivet Upon locating a broken or disfigured rivet on an installed TPM administrators should consider the system compromised and take appropriate measures to ensure the integrity of the system data When using BitLocker always retain the recovery key password The recovery key password is required to enter Recovery Mode after BitLocker detects a possible compromise of system integrity HP is not liable for blocked data access caused by improper TPM use For operating instructions see the encryption technology feature documentation provided by the operating system Installing the Trusted Platform Module board St pp i Z WARNING To reduce the risk of personal injury from hot surfaces allow the drives and the internal system components to cool before touching them Power down the node on page 31 Disconnect all peripheral cables from the node Remove the node from the chassis on page 32 Place the node on a flat level surface Remove any installed PCI riser cage assemblies Remove the PCI ris
121. sor in the FlexibleL OM 2U node PCI riser cage assembly For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the server node from the chassis Remove the node from the chassis on page 32 4 Place the node on a flat level surface 5 Remove the FlexibleL OM 2U node PCI riser cage assembly FlexibleLOM 2U node riser cage assembly on page 52 6 Set the graphic card coprocessor power setting switch to the correct settings based on the power consumption of the coprocessor For more information see the documentation that ships with the coprocessor option 7 Remove the two top PCI blanks from the riser cage assembly Hardware options installation 115 8 Connect the single graphic card power cable to the connector on the riser board 9 Connect the power cable to the coprocessor 10 Install the coprocessor into the PCI riser cage assembly 11 Install the FlexibleLOM 2U node riser cage assembly and then secure it with five T 10 screws FlexibleLOM 2U node riser cage assembly option on page 92 Hardware options installation 116 12 Connect the power cable to the bayonet board 13 Install the node into the chassis Installing a node into the chassis on pa
122. stall the HP P440 Smart Array controller in the single slot left PCI riser cage assembly or the single slot 2U node PCI riser cage assembly e Install the HP P840 Smart Array controller in slot 2 of the FlexibleLOM 2U node riser cage assembly or slot 3 of a three slot PCI riser cage assembly For more information about product features specitications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs Installing the storage controller and FBWC module options To install the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the node from the chassis on page 32 4 Place the node on a flat level surface 5 Open the latch on the controller Hardware options installation 97 6 7 8 9 10 11 12 13 14 15 16 Connect the cache module backup power cable to the module Install the cache module on the storage controller 4 Remove the PCI riser cage Remove the PCI riser cage assembly on page 48 Select the appropriate PCle slot and remove any PCI blanks If you installed o cache module on the storage controller connect the cache module backup power cable to the riser board FBWC module cabling on page 140 Install the storage controller into the riser cage assembly and secure it to the riser cage with one T 10 screw Connect all necessary internal cables to the s
123. stalled with the single slot 2U node PCI riser cage assembly For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs Single slot left PCI riser cage assembly option To install the component 1 Power down the node on page 31 2 Disconnect all peripheral cables from the node 3 Remove the server node from the chassis Remove the node from the chassis on page 32 4 Place the node on a flat level surface 5 Do one of the following o Remove the 1U left rear I O blank on page 38 o Remove the 2U rear I O blank on page 40 6 If you are installing an expansion board remove the PCI blank 7 Install any optional expansion boards 8 Connect all necessary internal cabling to the expansion board For more information on these cabling requirements see the documentation that ships with the option Hardware options installation 85 9 Ina 1U node install the single slot left PCI riser cage assembly and then secure it with three T 10 screws 10 Ina 2U node do the following a Install the single slot left PCI riser cage assembly and then secure it with two T 10 screws b Install the three slot riser cage assembly Three slot PCI riser cage assembly options on page 93 A IMPORTANT If the PCle riser cage assembly is not seated properly then the server does not power up CAUTI
124. t a time If more than one component is extended a rack might become unstable WARNING To reduce the risk of personal injury or equipment damage be sure that the rack is adequately stabilized before installing the chassis CAUTION Be sure to keep the product parallel to the floor when installing the chassis Tilting the product up or down could result in damage to the slides Setup 59 Install the chassis into the rack and tighten the thumbscrews Ion installat t Chassis componen Installing a node into the chassis Setup 60 Installing a drive 1 Remove the drive blank Removing a drive blank on page 65 2 Install the drives Drive options on page 64 Installing the power supplies AA CAUTION Do not mix power supplies with different efficiency and wattage in the chassis Install only one type of power supply in a single chassis 1 If installing a second power supply remove the power supply blank 2 Slide the power supplies into the power supply bays until they click into place 3 If needed install an RCM module Rack control management RCM module on page 67 Setup 61 4 Connect all power cords and secure them with the strain release straps Powering up the chassis Connect the AC or DC power cables depending on the power configuration When the circuit breakers are powered the chassis and HP Advanced Power Manager have power By default each installed component also
125. t all peripheral cables to the nodes 16 Power up the node Power up the nodes on page 31 Installing two K40 12GB modules in a three slot PCI riser cage assembly or three slot GPU direct PCI riser cage assembly For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the three slot PCI riser cage assembly Three slot PCI riser cage assemblies on page 53 Sp St de Ss PS Set the graphic card coprocessor power setting switch to the correct settings 225W 235W based on the power consumption of the graphic card coprocessor For more information see the documentation that ships with the graphic card coprocessor option Hardware options installation 110 7 Remove the riser cage bracket 8 Remove the two top PCI blanks from the riser cage assembly 9 Turn the riser cage assembly over and lay it along the right side of the node 10 Remove the existing rear support brackets from the first and second graphic cards Hardware options installation 111 11 Install the rear support bracket onto the first graphic card 13 Connect the power cable to the first gra
126. t fastened to the rails WARNING To reduce the risk of personal injury from hot surfaces allow the drives and the internal system components to cool before touching them WARNING To reduce the risk of personal injury electric shock or damage to the equipment remove the power cord to remove power from the server The front panel Power On Standby button does not completely shut off system power Portions of the power supply and some internal circuitry remain active until AC power is removed CAUTION Protect the server from power fluctuations and temporary interruptions with a regulating uninterruptible power supply This device protects the hardware from damage caused by power surges and voltage spikes and keeps the system in operation during a power failure CAUTION Do not operate the server for long periods with the access panel open or removed Operating the server in this manner results in improper airflow and improper cooling that can lead to thermal damage Rack warnings A WARNING To reduce the risk of personal injury or damage to the equipment be sure that e The leveling jacks are extended to the floor e The full weight of the rack rests on the leveling jacks e The stabilizing feet are attached to the rack if it is a single rack installation e The racks are coupled together in multiple rack installations e Only one component is extended at a time A rack may become unstable if more than one component is exte
127. t it from the connectors on the system board Remove the bayonet board assembly from the node Remove the bayonet board assembly on page 43 Remove the bayonet board bracket from the bayonet board o 1U bayonet board bracket Operations 46 o 2U bayonet board bracket Install the bayonet board bracket NOTE If a storage cable is connected to the 2U bayonet board route the cable under the padding before installing the 2U bayonet board bracket 1 Install the bayonet board bracket onto the bayonet board o 1U bayonet board bracket Operations 47 o 2U bayonet board bracket 2 Install the bayonet board assembly into the node Install the bayonet board assembly on page 44 3 If any SATA or Mini SAS cables are installed secure the cables under the thin plastic covers along the side of the node tray 4 f removed connect the B140i SATA cable to the connectors on the system board B140i 1U node SATA cable on page 78 B140i 2U node SATA cable on page 79 If a graphic card coprocessor power cable was removed connect it to the bayonet board If removed install the FlexibleLOM 2U node riser cage assembly Flexible OM 2U node riser cage assembly option on page 92 or the three slot PCI riser cage assembly Three slot PCI riser cage assembly options on page 93 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up
128. ting Troubleshooting resources The HP Proliant Gen9 Troubleshooting Guide Volume Troubleshooting provides procedures for resolving common problems and comprehensive courses of action for fault isolation and identification issue resolution and sottware maintenance on ProLiant servers and server blades To view the guide select a language English http www hp com support Gen9_TSG_en French http www hp com support Gen9 TSG fr Spanish http www hp com support Gen9 TSG es German http www hp com support Gen9 TSG de Japanese http www hp com support Gen9 TSG ja Simplified Chinese http www hp com support Gen9 TSG zh cn The HP Proliant Gen Troubleshooting Guide Volume Il Error Messages provides a list of error messages and information to assist with interpreting and resolving error messages on ProLiant servers and server blades To view the guide select a language English http www hp com support Gen9_EMG_en French http www hp com support Gen9_EMG_ fr Spanish http www hp com support Gen9 EMG es German http www hp com support Gen9 EMG de Japanese http www hp com support Gen9 EMG ja Simplified Chinese htp www hp com support Gen9 EMG zh cn Troubleshooting 160 Regulatory information Safety and regulatory compliance For safety environmental and regulatory information see Safety and Compliance Information for Server Storage Power Networking and Rack Products available
129. tive humidity Maximum to be 24 C 75 2 F dew point or 90 relative humidity Nonoperating 5 to 95 38 7 C 101 7 F maximum wet bulb temperature All temperature ratings shown are for sea level An altitude derating of 1 0 C per 304 8 m 1 8 F per 1000 ft to 3048 m 10 000 ft is applicable No direct sunlight allowed Maximum rate of change is 20 C per hour 36 F per hour The upper limit and rate of change might be limited by the type and number of options installed For certain approved hardware configurations the supported system inlet temperature range is extended e 5 Cto 10 C 41 F to 50 F and 35 C to 40 C 95 F to 104 F at sea level with an altitude derating of 1 0 C per every 175 m 1 8 F per every 574 ft above 900 m 2953 ft to a maximum of 3048 m 10 000 ft e 40 C to 45 C 104 F to 113 F at sea level with an altitude derating of 1 0 C per every 125 m 1 8 F per every 410 ft above 900 m 2953 ft to a maximum of 3048 m 10 000 ft The approved hardware configurations for this system are listed on the HP website http www hp com servers ASHRAE Mechanical specifications HP Apollo r2200 Chassis 12 LFF 8 73 cm 3 44 in 86 33 cm 33 40 in Width 4480 cm 17 64 in Specifications 164 Weight maximum 2907 kg 55 94 b 55 94 Ib 11 94 kg 26 37 Ib HP Apollo r2600 Chassis 24 SFF 8 73 cm 3 44 in Depth 82 27 cm 32 40 in Weight maximum 23
130. torage controller For internal drive cabling information see Storage cabling on page 137 Install the PCI riser cage PCI riser cage assembly options on page 84 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 For more information about the integrated storage controller and its features select the relevant user documentation on the HP website http www hp com go smartstorage docs Hardware options installation 98 To configure arrays see the HP Smart Storage Administrator User Guide on the HP website http www hp com go smartstorage docs Installing the HP Smart Storage Battery To install the component Power down the system on page 31 Disconnect all peripheral cables from the nodes and chassis Remove all nodes from the chassis Remove the node from the chassis on page 32 If installed remove the security bezel on page 35 Remove all drives Removing the drive on page 35 If installed remove the RCM module on page 33 Remove all power supplies Remove the power supply on page 33 Remove the chassis from the rack on page 34 df SS 2 En a Z 2S PS Remove the access panel Remove the chassis access panel on page 36 10 Remove the HP Smart Storage Battery holder Hardware options installation 99 11 12 13 Route the cable through holder an
131. vailable only on HP Qualified memory and verities whether installed memory has passed HP qualification and test processes Qualitied memory is performance tuned for HP ProLiant and BladeSystem servers and provides future enhanced support through HP Active Health and manageability software Memory subsystem architecture The memory subsystem in this node is divided into channels Each processor supports four channels and each channel supports two DIMM slots as shown in the following table For the location of the slot numbers see DIMM slot locations on page 1 9 This multi channel architecture provides enhanced performance in Advanced ECC mode This architecture also enables Online Spare Memory mode DIMM slots in this server are identified by number and by letter Letters identify the population order Slot numbers indicate the DIMM slot ID for spare replacement Hardware options installation 73 Single dual and quad rank DIMMs To understand and contigure memory protection modes properly an understanding of single dual and quad rank DIMMs is helpful Some DIMM configuration requirements are based on these classifications A single rank DIMM has one set of memory chips that is accessed while writing to or reading from the memory A dual rank DIMM is similar to having two single rank DIMMs on the same module with only one rank accessible at a time A quad rank DIMM is effectively two dual rank DIMMs on the same module Onl
132. wing guidelines for all AMP modes e Install DIMMs only if the corresponding processor is installed e When two processors are installed balance the DIMMs across the two processors e White DIMM slots denote the first slot of a channel Ch 1 A Ch 2 B Ch 3 C Ch 4 D e Do not mix RDIMMs and LRDIMMs e When one processor is installed install DIMMs in sequential alphabetic order A B C D E F and so forth e When two processors are installed install the DIMMs in sequential alphabetic order balanced between the two processors P1 A P2 A P1 B P2 B P1 C P2 C and so forth e When single rank dual rank and quad rank DIMMs are populated for two DIMMs per channel or three DIMMs per channel always populate the higher number rank DIMM first starting from the farthest slot For example first quad rank DIMM then dual rank DIMM and then lastly single rank DIMM e DIMMs should be populated starting farthest from the processor on each channel e For DIMM spare replacement install the DIMMs per slot number as instructed by the system software For more information about node memory see the HP website http www hp com go memory DIMM speeds are supported as indicated in the following table Populated slots Speeds supported MT s ee Single dual or quad rank bg Single or dual rank Ee ER Advanced ECC population guidelines For Advanced ECC mode configurations observe the following guidelines e Observe the gene
133. with any regional or national electrical wiring codes such as the International Electrotechnical Commission IEC Code 364 parts 1 through 7 Furthermore you must be sure Setup 56 that all power distribution devices used in the installation such as branch wiring and receptacles are listed or certified grounding type devices Because of the high ground leakage currents associated with multiple servers connected to the same power source HP recommends the use of a PDU that is either permanently wired to the building s branch circuit or includes a nondetachable cord that is wired to an industrial style plug NEMA locking style plugs or those complying with IEC 60309 are considered suitable for this purpose Using common power outlet strips for the server is not recommended Server warnings and cautions A WARNING This server is very heavy To reduce the risk of personal injury or damage to the equipment e Observe local occupational health and safety requirements and guidelines for manual material handling e Get help to lift and stabilize the product during installation or removal especially when the product is not fastened to the rails HP recommends that a minimum of two people are required for all rack server installations A third person may be required to help align the server if the server is installed higher than chest level e Use caution when installing the server or removing the server from the rack it is unstable when no
134. ww hp com go gs Hardware options installation 64 Removing a drive blank 1 If installed remove the security bezel on page 35 2 Remove the drive blank Installing a hot plug drive N WARNING To reduce the risk of injury from electric shock do not install more than one drive carrier at a time The chassis can support up to 12 drives in an LFF configuration and up to 24 drives in an SFF configuration To install the component 1 If installed remove the security bezel on page 35 2 Remove the drive blank Removing a drive blank on page 65 3 Prepare the drive o SFF HP SmartDrive Hardware options installation 65 o Low profile LFF hot plug drive seal arr 4 Install the drive o SFF HP SmartDrive o Low profile LFF hot plug drive 5 Determine the status of the drive from the drive LED definitions HP SmartDrive LED definitions on page 22 Hotplug drive LED definitions on page 22 6 If removed install the security bezel Security bezel option on page 64 To configure arrays see the HP Smart Storage Administrator User Guide on the HP website http www hp com go smartstorage docs Hardware options installation 66 Node blank For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs Install the node blank into the left side of the server chassis
135. y one rank is accessible at a time The node memory control subsystem selects the proper rank within the DIMM when writing to or reading from the DIMM Dual and quad rank DIMMs provide the greatest capacity with the existing memory technology For example if current DRAM technology supports 8 GB single rank DIMMs a dual rank DIMM would be 16 GB and a quad rank DIMM would be 32 GB LRDIMMs are labeled as quad rank DIMMs There are four ranks of DRAM on the DIMM but the LRDIMM buffer creates an abstraction that allows the DIMM to appear as a dual rank DIMM to the system The LRDIMM buffer isolates the electrical loading of the DRAM from the system to allow for faster operation This allows higher memory operating speed compared to quad rank RDIMMs DIMM identification To determine DIMM characteristics use the label attached to the DIMM and the following illustration and kh dg HP 8GB IRx4 DDR4 2133P R BC Is Ronk IR Single rank 2R Dual rank AR Quad rank Data hs x4 4 bit aE 8 bit _ Hardware options installation 74 oie e Maximum memory 2133 MT s speed S CAS latency P eo LU DIMM type R RDIMM re mms L LRDIMM load reduced For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs Memory contigurations To optimize node availability the node supports the following AMP modes
136. y removed PCI riser cage assemblies PCI riser cage assembly options on page 84 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up the node Power up the nodes on page 31 Storage cable options B140i 1U node SATA cable For more information about product features specifications options configurations and compatibility see the product QuickSpecs on the HP website http www hp com go gs To install the component St Ss St P Si Power down the node on page 31 Disconnect all peripheral cables from the node Remove the server node from the chassis Remove the node from the chassis on page 32 Place the node on a flat level surface Remove the bayonet board assembly from the node Remove the bayonet board assembly on page 43 Remove the bayonet board bracket from the bayonet board Remove the bayonet board bracket on page 46 Connect the SATA cable to the system board and bayonet board Install the bayonet board bracket onto the bayonet board Install the bayonet board bracket on page 47 Route and secure the cable under the thin plastic covers Install the bayonet board assembly into the node Install the bayonet board assembly on page 44 Install the node into the chassis Installing a node into the chassis on page 60 Connect all peripheral cables to the nodes Power up the node Power up the n

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