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HP Integrity rx7620 Server User Service Guide

1. Please check either Yes or No If No include comment or date Comment or Date 8 Is there a remote console telephone line available with an RJ11 jack 9 Is a telephone line available 10 Are customer supplied peripheral cables and LAN cables available and of the proper type 11 Are floor tiles in good condition and properly braced 12 Is floor tile underside shiny or painted If painted judge the need for particulate test Power and lighting No Area or condition Yes No 13 Are lighting levels adequate for maintenance 14 Are there AC outlets available for servicing needs i e vacuuming 15 Does the input voltage correspond to equipment specifications 15A Is dual source power used If so identify type s and evaluate grounding 16 Does the input frequency correspond to equipment specifications 17 Are lightning arrestors installed inside the building 18 Is power conditioning equipment installed 19 Is there a dedicated branch circuit for equipment 20 Is the dedicated branch circuit less than 250 feet 72 5 meters 21 Are the input circuit breakers adequate for equipment loads Safety No Area or condition Yes No 22 Is there an emergency power shut off switch 23 Is there a telephone available for emergency purposes 24 Is there a fire protection system in the computer room 25 Is antistatic flooring installed 26 Are there any equipment servicing hazards loose ground wires p
2. Part Number Description Quantity 46753 04013 Wheel Kit consisting of the following components 1 A6753 04002 Side cover 1 A6753 04003 Side cover 1 A6753 04004 Top cover 1 A6753 00007 Caster cover 2 A6753 04001 Right front caster assembly 1 A6753 04005 Right rear caster assembly 1 A6753 04006 Left front caster assembly 1 A6753 04007 Left rear caster assembly 1 0515 2478 MA x 0 7 8mm T15 steel zinc machine screw Used to attach 4 each caster to the chassis 46093 44013 Plywood unloading ramp 1 Not Applicable dra d head wood screw Used to attach the ramp to the 2 pallet Tools Required for Installation The following list provides the installer with the recommended tools to perform the wheel kit installation e Diagonal side cutters e Safety glasses e Torx screwdriver with T 15 bit e Phillips head screwdriver A WARNING Wear protective glasses while cutting the plastic bands around the shipping container These bands are under tension When cut they can spring back and cause serious eye injury To install the wheel kit follow these steps 1 Cutandremove the polystrap bands securing the HP server to the pallet 2 Liftthe carton top from the cardboard tray resting on the pallet 3 Remove the bezel kit carton and the top cushions from the pallet Wheel Kit Installation 41 Figure 3 1 Component Locations Top Cushions MWK001 31003 4 Unfold the bottom cardboard tray 5
3. sss 181 Electrical Bactorss ud stet tro ettet e eto Yee de cba OSEE eene A deus rss eieobe flee eds 181 Computer Boom Safely accu iae tqepesiupe pre QU Lena epu tvm vedo DLP npe t e Pet euo Rue Reg 181 Ere Protections tet OE EE tete tu eet ertt esac ak tee iwc c GE eect Seiten Arr qae 181 Lighting Requirements Tor Equipment Servictbr esequi enr oot be stat rep ea IR REUS 181 Working Space for Server ACCeS5 iu ecianci siete feti acu ec ise idus Seen ede ie Posee 182 Power ConsummpbHOot aae agere pb re d DONEA Eea E EROR A EELEE EEE ANE Mur be DS ER IN Eua id 182 Electrical Load Requirements Circuit Breaker Dizinp eerte tei eed ie veteres qud 182 Pow r bii cM T iat 182 Sources of Voltage Fluctuations saec oo beoe rette ba n eiae br re contu tes aiu 182 Power Systemi NOLS COM fave sis dun te wan es Rte pa bae aA EO aide NN LV HUE CLR EKA EErEE Re B Gel NEE EEK EA ME RLA UNS 182 Distribution Hardware ate ee rere Here ebe ede ve tdeo v ped bevy Miet dee epe eds voe bea Y ee seve abeddepueandle 183 Wire SOLE CE OD cio eons Ra cette es ch a eal ee pan Rc ee edi he e eC es nsa 183 Raceway Systems Electrical Condulls us uicieetut up udi curet i etna ovile moe Dep anes 183 Building DISEODUEDQEE usi cusses ael e eee eve aequ deti Rer PU ege tuo E ETA vea es oe op Ro ped 183 lower ROUBDS ooo UR papa asp Let beer tive dete DU Ld m M LEE pat iets 183 Grounding Syste S ne toobeest pests e dessus o
4. A CAUTION Repeat the firmware update procedure immediately for all entities failing to update successfully DO NOT RESET or AC POWER CYCLE until you get a message indicating that all updates have completed successfully 10 Verify the updated firmware revisions using the sysrev command Example MP CM sysrev Cabinet firmware revision report PROGRAMMABLE HARDWARE System Backplane GPM FM OSP 1 002 1 002 1 002 PCI X Backplane LPM HS 2 000 1 000 Core IO Master Slave 2 009 2 009 LPM PDHC Cell 0 1 002 1 007 Cell 1 1 002 1 007 Cell 2 1 002 1 007 Cell 3 1 002 1 007 FIRMWARE Core IO Master A 006 012 Event Dict 0 009 Slave A 006 012 Event Dict 0 009 Cell O PDHC A 003 023 Pri SFW g 21 003 PA Sec SFW 22 002 PA Cell 1 PDHC t A 003 023 Pri SFW g 21 003 PA Sec SFW i 22 002 PA Cell 2 PDHC A 003 023 Pri SFW H 21 003 PA Sec SFW E 22 002 PA Cell 3 PDHC A 003 023 Pri SFW s 21 003 PA Sec SFW 22 002 PA IO Cabinet FPGA and Firmware revision report System Backplane GPM FM OSP 1 002 1 002 1 002 PCI X Backplane LPM HS 2 000 1 000 138 Removing and Replacing Components IOX Master Core IO E 2 009 A 006 012 Event Dict 0 009 IOX Slave Core IO 2 009 A 006 012 Event Dict 0 009 11 After resetting the firmware verify the firmware and programmable hardware revisions again using the sysrev command If all versions are now correct continue to step 12 If not correct run d w w
5. Overview 17 Figure 1 2 HP Integrity rx7620 Server without front bezel System Backplane The system backplane comprises the system clock generation logic the system reset generation logic DC to DC converters power monitor logic and two Local Bus Adapter LBA link to PCI converter ASICs It also includes connectors for attaching the cell boards the PCI X backplane MP SCSI core I O boards SCSI cables bulk power chassis fans the front panel display intrusion switches and the system scan card Unlike Superdome or the rp8400 there are no Crossbar Chips XBC on the system backplane The crossbar less back to back CC connection increases performance and reduces costs Only half of the MP SCSI core I O board set connects to the system backplane The MP SCSI boards plug into the backplane while the LAN SCSI boards plug into the PCI X backplane 18 Introduction Figure 1 3 System Backplane Block Diagram System backplane MP Core I O MP SCSI a PCI X backplane lt a Cell board 0 MP Core I O MP SCSI at Cell board 1 Cell boards are perpendicular to the system backplane Bulk power supply System Backplane to PCI X Backplane Connectivity The PCI X backplane uses two connectors for the SBA link bus and two connectors for the high speed data signals and the manageability signals SBA link bus signals are routed through the system backplane to the cell controller on each corres
6. Table C 3 Floor Loading Term Definitions continued Term Definition Concentrated load The load that a floor panel can support on a one square inch 6 45 cm2 area at the panel s weakest point typically the center of the panel without the surface of the panel deflecting more than a predetermined amount Ultimate load The maximum load per floor panel that the floor system can support without failure Failure expressed by floor panel s breaking or bending Ultimate load is usually stated as load per floor panel Rolling load The load a floor panel can support without failure when a wheel of specified diameter and width is rolled across the panel Average floor load Computed by dividing total equipment weight by the area of its footprint This value is expressed in Ib ft2 kg m2 Average Floor Loading The average floor load value defined in Table C 4 is not appropriate for addressing raised floor ratings at the floor grid spacing level However it is useful for determining floor loading at the building level such as the area of solid floor or span of raised floor tiles covered by the server footprint Typical Raised Floor Site This section contains an example of a computer room raised floor system that is satisfactory for the installation of an HP Integrity rx7620 Server Based on specific information provided by HP Tate Access Floors has approved its Series 800 all steel access floor with bolt togeth
7. The main electrical service entrance equipment should have an earth ground connection as required by applicable codes Connections such as a grounding rod building steel or a conductive type cold water service pipe provide an earth ground Electrical Conduit Ground All electrical conduits should be made of rigid metallic conduit that is securely connected together or bonded to panels and electrical boxes to provide a continuous grounding system Power Panel Ground Each power panel should be grounded to the electrical service entrance with green green yellow wire ground conductors The green green yellow wire ground conductors should be sized per applicable codes based on circuit over current device ratings ET NOTE The green wire ground conductor can be a black wire marked with green tape LAHJ Computer Safety Ground Ground all computer equipment with the green green yellow wire included in the branch circuitry The green green yellow wire ground conductors should be connected to the appropriate power panel and should be sized per applicable codes based on circuit over current device ratings Dual Power Source Grounding When dual power sources are utilized strong consideration should be given to measure voltage potentials The use of dual power might create an electrical potential that can be hazardous to personnel and might cause performance issues for the equipment Dual power sources might originate from
8. A CAUTION Donotshut down Windows using Special Administration Console SAC restart or shutdown commands under normal circumstances Issuing restart or shutdown at the SAC prompt causes the system to restart or shutdown immediately and can result in the loss of data Instead use the Windows Start menu or the shutdown command to shut down gracefully To shut down Windows use either of the following methods e Select Shut Down from the Start menu and choose either Restart or Shut down from the pull down menu The Restart menu item shuts down and restart the system The Shut down menu item shuts down the system You can use this method when using a graphical interface to the system e Issue the shutdown command from the Windows command line For details see Windows Shutdown From the Command Line page 216 You can issue this command from a command prompt through the Special Administration Console SAC or from any other command line Shutting Down Microsoft Windows 215 The Windows shutdown command includes the following options s Shut down the system This is the equivalent of Start Shut Down Shut down r Shut down and restart the system This is the equivalent of Start Shut Down Restart a Abort a system shutdown t xxx Set the timeout period before shutdown to xxx seconds The timeout period can be 0 600 with a default of 30 For details see the help shutdown Windows command ET NOTE Pe
9. A6825A PCI 1 port 1000Base T 8 A7011A PCI X 2 port 1000Base SX 8 A7012A PCI X 2 port 1000Base T 8 A9782A PCI X 2 Gb Fibre Channel 1000Base SX 4B A9784A PCI X 2 Gb Fibre Channel 1000Base T 4B AB465A PCI X 2 port 2 Gb FC 2 port 1 Gb Ethernet 2B AB290A PCI X 2 port 1000Base T 2 port Ultra320 SCSI 2B PCI I O Card Installation HP Integrity rx7620 Servers implement manual release latch MRL hardware for use in online add or replacement OLAR operations If an MRL is left open while the server is booting HP UX can incorrectly cache PCI slot power status causing OLAR operations to fail To prevent this situation ensure all the MRLs are closed before booting the server Installing Additional Components we If OLAR reports that a slot is present and powered off but no OLAR operations to turn power on to that slot have succeeded even after the MRL is closed the MRL may have been left open during boot To clear this condition close the MRL for the PCI slot then power off the PCI slot using the rad o command This enables future OLAR operations to succeed on this PCI slot IMPORTANT The installation process varies depending on what method for installing the PCI card is selected PCI I O card installation procedures should be downloaded from the HP website at http docs hp com Background information and procedures for adding a new PCI I O card using online addition are found in the Interface Card OL Support Guide PCII
10. 9 Power on the nPartition See Appendix D 10 To verify proper operation of the cell board use the info cpu command from the EFI Shell N Installing the VRM Cover AB388 00002 and Door Opener AB388 00003 145 Removing and Replacing a Central Processing Unit The CPUs are located on the cell boards A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Removing the Processor To remove the processor follow these steps 1 9 Prepare an ESD safe work surface large enough to accommodate the cell board Use a grounded mat and an anti static wrist strap such as those included in the ESD Field Service Kit HP P N A3024 80004 Identify the partition cell board and processors that are to be removed Power off the server For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 and Appendix D page 205 Remove the right side cover Remove the cell board Position the cell board on the ESD safe work surface with the backplane connectors facing toward you Loosen the four captive screws that secure the DIMM cover Lift the DIMM cover away from the cell board Figure 6 46 DIMM Cover Removed Loosen the captive screws on the CPU cover lift the cover and set aside 146 Removing and Replacing Components Figure 6 47 CPU Cover Raised 10 Identify the CPUs to
11. Datacenter Starting Windows kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk Computer is booting SAC started and initialized Use the ch command for information about using channels Use the command for general help Booting the Microsoft Windows Operating System 211 SAC 5 Exit the console and MP interfaces if finished using them To exit the console environment enter B Control B This exits the console and returns to the MP Main menu To exit the MP enter X at the Main Menu Booting the Red Hat Linux Operating System You can boot the Red Hat Linux operating system on HP Integrity servers using either of the methods described in this section For details on shutting down the Red Hat Linux operating system see Shutting Down Linux page 216 A CAUTION ACPI Configuration for Red Hat Linux 3 Must Be single pci domain On nPartition capable HP Integrity servers to boot the Red Hat Linux 3 operating system an nPartition must have its ACPI configuration value set to single pci domain At the EFI Shell enter the acpiconfig command with no arguments to list the current ACPI configuration If the acpiconfig value is not set to single pci domain Red Hat Linux could panic In this situation you must reconfigure acpiconfig to eliminate any bus address conflicts and ensure all I O slots have unique addresses To set the ACPI configuration for Red Hat Linux 3 at the EFI S
12. List of Figures 6 40 6 41 6 42 6 43 6 44 6 45 6 46 6 47 6 48 6 49 6 50 6 51 6 52 6 53 6 54 6 55 6 56 6 57 6 58 6 59 6 60 6 61 6 62 6 63 6 64 6 65 6 66 6 67 6 68 6 69 6 70 6 71 B 1 C 1 C2 C 3 C 4 C 5 C 7 C 8 C 10 C 11 C 12 C 13 C 14 C 15 C 16 C 17 bxtraction Lever zx nee RAN veis Ga ss tod Pee eee cei ee oh ee Sse Ges 130 Extraction Eever ii estet cU Se SE ck to EE oM SOE EL ch ed Cale 131 eo ma and OSuEDUE qii vestre rt devises oiin ig eth ao etae tw del atate EREA acta vata deo ERR SERES 132 NRM Cover Installed onde br Bebe des sede sb tnb ks 144 Door Opener Iostalled reto ote to obe tt amedte debite ae eoe eean induti i bo eroi 145 VRM Cover Door Opener and DIMM Cover Installed trm tr ttr 145 DIMM Cover Removed rote eee trr ovn etre e e emere yas eeee dote dius yuan oe ge ee nece E nee gota cn eo gae Ese dan 146 CPU Cover alsed s5 5 eese tees ete de esee ve tUe er EE ele doen vete e ER e ed vue rebote 147 CPUs with Turbo Cooler Fans ccccccccccccssccccccesscccsceescesscecsccsscecsessseuscesseeusccsseuuscssseuussesseunesess 147 Locating Pins on the CPU Module ico ete etre poe ar Re ovrt P eect his NM FERRO dr RP TIR EDS 150 Guide Holes on Cell Board c cc ccccecescccssssscccesssscceessssscessessccessessscessssseeesessscessssseessessseeesessveess 150 Locking the CPU Into th Cell Board ZIF SOCK Gt icc oiii ettet dense tet etc eret edet 151 sequencer Pan Asse
13. Use the following procedure to create a computer room layout plan 1 Remove the floor plan grid from the document See Figure C 4 2 Remove a copy of each applicable equipment footprint template See Figure C 3 3 Cutouteach template selected in step 2 then place it on the floor plan grid 4 Position the pieces until the desired layout is obtained then fasten the pieces to the grid Mark locations of computer room doors air conditioning floor vents utility outlets and so on 194 General Site Preparation Guidelines Figure C 4 Planning Grid Scale 1 4 inch 1 foot amp 60SP016A 12 20 99 Power Plug Configuration There are several different power cables designed for use with HP servers The region the server ships to will determine which power cable ships with the server The following provides the site preparation specialist with the knowledge of what to expect to receive based on the regional shipping destination Female End of Power Cable The female end of the HP server is a C19 type plug that mates with the C20 receptacle in each power supply installed in the HP server Power Plug Configuration 195 Figure C 5 C20 Male Receptacle at power supply Figure C 6 C19 Female Plug on one end of the power cord Male End of Power Cable The male plug on the other end of the power cable will vary depending on the region the HP server is shipped to ET NOTE Several examples follow though this list is not meant to
14. boot in LVM maintenance mode by stopping the boot process at the HPUX EFI interface the HP UX Boot Loader prompt HPUX gt Enter the boot 1m vmunix command For required configuration details see ACPI Configuration for HP UX Must Be default page 207 1 Access the EFI Shell environment for the nPartition on which you want to boot HP UX in LVM maintenance mode Login to the service processor MP or GSP and enter CO to access the Console list Select the nPartition console When accessing the console confirm that you are at the EFI Boot Manager menu the main EFI menu If at another EFI menu select Exit from the sub menus until you return to the screen with the EFI Boot Manager heading From the EFI Boot Manager menu select the EFI Shell menu option to access the EFI Shell environment 2 Access the EFI System Partition sX where X is the filesystem number for the device from which you want to boot HP UX 3 Whenaccessing the EFI System Partition for the desired boot device issue the HPUX command to invoke the EFI HPUX HPUX EFI loader on the selected device 4 Press any key within the ten seconds given for interrupting the HP UX boot process This stops the boot process at the HPUX EFI interface the HP UX Boot Loader prompt HPUX 5 Atthe HPUX EFI interface enter the boot 1m vmunix command to boot HP UX the stand vmunix kernel in LVM maintenance 1m mode 6 Exit the console and service processor interfac
15. 003 023 Pri SFW 21 003 PA Sec SFW 22 002 PA Cell 2 PDHC A 003 023 Pri SFW E 21 003 PA Sec SFW 22 002 PA Cell 3 PDHC A 003 023 Pri SFW 3 21 003 PA Sec SFW 22 002 PA IO Cabinet FPGA and Firmware revision report System Backplane GPM FM OSP 1 002 1 002 1 002 PCI X Backplane LPM HS 2 000 1 000 FPGA MP IOX Master Core IO 2 009 A 006 012 Event Dict 0 009 IOX Slave Core IO 2 009 A 006 012 Event Dict 0 009 A NOTE System Firmware does not display the correct revision until it has been updated separately in step 8 8 Having verified that all other firmware components have been updated successfully run the Firmware Update Utility to update Cell System Firmware version s to A X X X See Note 1 in this step using the w command MP CM fw Enter the following information when prompted Enter the Entities to be upgraded Ex 3 4 10 1 Enter your user name 2 Enter your user password 3 Enter the ip address where the firmware can be found 4 136 Removing and Replacing Components Enter the path where the firmware can be found 5 Enter the filename of the firmware image for the PDHC 6 a or b Enter the filename of the System Firmware image 7 Enter the filename of the firmware image for the MP 8 Are you sure that you want to continue Y N y 1 Select the appropriate entity corresponding to the replacement cell to be upgraded downgraded by entering the
16. 1 1 ClientName command After reconfiguring the MP networking remove these network routing table changes with the route delete command 3 To confirm the new network connection to the MP enter the ping 198 168 1 1 n 2 command 4 To connect to the MP use the telnet 192 168 1 1 command from the PC or workstation 2 Fromthe MP Command menu enter LS to list the current network settings and if needed use the LC command to reconfigure the network settings for the MP The LC command enables modifications to the customer LAN and or the private LAN configuration Cancel all changes to the MP LAN configuration at any time by replying Q to any of the LC command prompts 3 Ensure that the MP networking configuration is correct Removing and Replacing the System Backplane The system backplane is located in the left side of the chassis Before attempting to remove or replace this component you must remove all system power 164 Removing and Replacing Components A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 66 System Backplane Location Removing the System Backplane Figure 6 67 System Backplane Removal Removing and Replacing the System Backplane 165 Figure 6 68 System Backplane Removed To remove the system backplane follow these steps Mey Grow c9 Pcr Shut down the system partitions a
17. 27 PCI X Card Cage Assembly Location Removing and Replacing the PCI X Card Cage Assembly 121 Removing the PCI X Card Cage Assembly Figure 6 28 PCI Card Cage Assembly Detail To remove a PCI X card cage assembly follow these steps 1 Shutdown the system and remove all power cables 2 Remove the top and side covers 3 Remove the PCI access panel by loosening the four retaining screws shown in Figure 6 29 122 Removing and Replacing Components 9 10 11 12 13 Figure 6 30 Removing the PCI Cage Access Panel Disengage the PCI power supplies by pulling them out approximately 1 5 inches Remove PCI fans Disconnect the PCI X OLR ribbon cable from the PCI backplane The connector is located on the cell board side of the system Label and remove all PCI X card cables Follow the proper procedures to remove any mounted PCI X cards Keep track of each card path for replacement procedures Disconnect the two cable bundle connectors at the rear of the mass storage board Loosen the two captive screws on the backplane near the extractor levers Pull the levers to release from the system board connector The PCI X backplane support wall has a grab handle Use this handle to assist in alignment for removal The outside of the PCI fan card cage is designed as a handle also From the right side of the chassis manipulate the PCI card cage free of retaining stand off pins Tilt up the rear of the backplane and lift to r
18. Amps and the measured maximum worst case power consumption This number represents the largest power consumption for the server under laboratory conditions using aggressive software applications designed specifically to work the system at maximum loads and power consumption DC Powered Systems DC powered systems must be powered by a 48 VDC Telco power source Follow your site specific procedures for connecting the power and return lines to the server Environmental Specifications This section provides the environmental power dissipation noise emission and airflow specifications for HP Integrity rx7620 Servers Temperature and Humidity The cabinet is actively cooled using forced convection in a Class C1 modified environment Operating Environment The system is designed to run continuously and meet reliability goals in an ambient temperature of 5 to 35 C at sea level The maximum allowable temperature is derated 1 C per 1000 feet of elevation above 5000 feet above sea level up to 30 C at 10 000 feet For optimum reliability and performance the recommended operating range is 20 to 25 C Environmental Temperature Sensor To ensure that the system is operating within the published limits the ambient operating temperature is measured using a sensor placed near the chassis inlet between the cell boards Data from the sensor is used to control the fan speed and to initiate system overtemp shutdown For more details see the pla
19. BPSs 62 Cable Connections e When power is first applied The BPS LEDs flash amber e After 30 seconds has elapsed The flashing amber BPS LED for each BPS becomes a flashing green LED To interpret LED indicators see power cord policies 3 Login to the MP a Enter Admin at the login prompt The login is case sensitive It takes a few moments for the MP prompt to display If it does not display check that the laptop serial device settings are correct 8 bits no parity 9600 baud and na for both Receive and Transmit Then try again b Enter Admin at the password prompt The password is case sensitive The MP Main Menu displays Figure 4 8 MP Main Menu MP login Admin MP password Welcome to the rx 7620 Management Processor lt c gt Copyright 1995 2803 Hewlett Packard Co fill Rights Reserved Version A 5 611 MP MAIN MENU CO Consoles UFP Virtual Front Panel Cpartition status Command Menu Console Logs Show Event Logs Help Exit Connection TAONA gt c tri e em T MP gt Configuring LAN Information for the MP To set the MP LAN IP address follow these steps 1 At the MP Main Menu prompt MP gt enter cm From the MP Command Menu prompt MP CM gt enter 1c for LAN configuration The default values display and a prompt asking if default values are to be modified displays It is a good idea to write down the information because it might be required for future troubleshooting ET NO
20. Carefully tilt the server and place one of the foam blocks 46093 44002 under the left side of the server Do not remove any other cushions until instructed to do so Figure 3 2 Left Foam Block Position Foan Block Cardboard Tray MWK002 41103 6 Carefully tilt the server and place the other foam block provided in the kit under the right side of the server 42 Installing Additional Components Figure 3 3 Right Foam Block Position MWKoo03 411 03 7 Remove the cushions from the lower front and rear of the server Do not disturb the side cushions Figure 3 4 Foam Block Removal 8 Locate and identify the caster assemblies Use the following table to identify the casters Wheel Kit Installation 43 ET 10 11 12 13 ET 14 15 ET 16 NOTE The caster part number is stamped on the caster mounting plate Table 3 2 Caster Part Numbers Caster Part Number Right front A6753 04001 Right rear A6753 04005 Left front A6753 04006 Left rear A6753 04007 Locate and remove one of the four screws from the plastic pouch Attach a caster to the server Figure 3 5 Attaching a Caster to the Server Attach the remaining casters to the server using the screws supplied in the plastic pouch Remove the foam blocks from the left and right side of the server Locate the plywood ramp Attach the ramp to the edge of the pallet NOTE There are two pre drilled holes in the ramp Use t
21. Core I O Board e Removing and Replacing a Cell Board e Removing and Replacing a PCI PCI X Card Hot Swappable FRUs A FRU is hot swappable if it can be removed from the chassis while the server remains operational and requires no software intervention prior to removing the FRU The following Frus are hot swappable e Removing and Replacing a Front Smart Fan Assembly e Removing and Replacing a Rear Smart Fan Assembly e Removing and Replacing a PCI Smart Fan Assembly e Removing and Replacing a Bulk Power Supply Other FRUs To remove and replace the FRUs that are neither hot pluggable nor hot swappagle you must shut down HP UX in the nPartition where the FRU resides and power to the FRU must be turned off before removing it For complete instructions see Shutting Down nPartitions and Powering Off Hardware Components page 96 and Appendix D These FRUs include e Removing and Replacing a CD DVD DAT Drive e Removing and Replacing a DIMM e Removing and Replacing the PCA Front Panel Board e Removing and Replacing the PCI X Card Cage Assembly e Removing and Replacing the PCI OLR Assembly e Removing and Replacing the System Backplane e Removing and Replacing a Central Processing Unit HP Integrity rx7620 Server Field Replaceable Units FRUs 95 Safety and Environmental Considerations WARNING Before proceeding with any installation maintenance or service on a system that requires physical contact with electrical or elec
22. DIMM Slot Layout esses enda mter es eae tu Bou stesse ep ive em Een t amet dep feto MEER RENE 25 laus M Disks PT 26 Right Front View of HP Integrity rx7620 Ser VOTE seeninto nth ep ti Ne RERUM rax ve ndo khu t Erie RA ER ree 28 Left Rear View of HP Integrity rx7620 Serveftus o exec e med ne ret e rellene EE eng egere d e 29 Removing the Polystraps and Cardboard e tiere tire qitod idee oie adore 32 Removing the Shipping Bolts and Plastic Cover terrere en orare 33 Preparing to Roll Off the Pallet s eine aeree EE RH ease iet eo dM orae pepe een nde 33 Securing th Cabinet e sao daa irine Teao d Db Ne etu s Pel ete du rue erac cab EUM Ede MERE 34 IM SIENTE TU D EUM 35 Server With Shipping Box Removed ciues iste ete aix aet i kai eripe DR Fa ets cob pg nga 36 Remove Cushions for Lift ACCESS iesieta none NESVESNO NEES EENE ONE CESEN ENAS S 36 Raising a Seryer Off the Paletes iedit oeat Poi RR neta aset E A Eeu A AEAT ove tesa o La ug 37 Positiorung the Tift Flandlesosa cem setceetenatuto aporte iet Pevrlere doeet Htedba oreste tecto iube dut 38 Inserting the Pins Into th Rack doeet vadat Ea deste ec e Po ei dels 38 Lift Handles Mounted ect eee tei ches cd sete wha co bua cep eunte Eee spes seer etta e ea be E ep eH E el CRM eda 39 Component Locations qaoque to IER a E E E a eem rp Rt eu eo etus eed ee tq Ra em eai 42 Left Foam Block Position averte ende E E AAE A eee hee een ee ve ele gas a eoe ss 42 Right Foam Block Posttiols o inen oe Sep
23. Display summary status of the selected MP device BPS Bulk Power Supplies CLU CCabinet Utilities Fans Intrusion Clock s etc PACI Partition Console Interface MP CManagement Processor PM XPouer Management Cell Board Controller CPDHC gt Select device h Enter cell number 1 o0 Dctu Cell Controller CPDHC gt status Cell 1 FW Revision 3 886 built FRI AUG 15 12 61 54 2883 MICE Revision 1 6 Ready Bit PDHC state x3b lerr bib SMG CCO cci I2C PUR RDY is fittention Led is off set to true Power Status x c 12USTBYCRDY EN PUR vflt tflt fanflt LED State x e lt BIB SMG I2C heartbeat x 1 lt Connection OK 8x01 Ccabinet 6 PCI Backplane 6 PCI Domain 1 gt 8x81 Xcabinet B cell 1 Valid IO Gonnection Status IO Chassis Phys Location Core Cell Number Temp Fault Status 8x8B Ccpu cpul cpu2 cpu3 mmu cell CPU 8 Temp 47 deg C CPU 1 Temp 6 deg C CPU 2 Temp 59 deg C CPU 3 Temp B deg C MMU Temp 30 deg C Cell Board Temp 28 deg C Fan Status BxOBcc lt See PS command for detail Local I2C Bus Status 6x86 COK MP CM gt Table 5 1 Ready Bit States RDY upper case All cell VRMs installed and both cell latches are locked rdy lower case One or more VRMs not installed or failed and or one or more cell latches not locked HP Integrity rx7620 Server LED Indicators The server has LEDs that indicate the health of the server This section defines those
24. EEEE aaa 193 Delivery Space Requirepapetits dotis ucesettsee ort depu e Se rt E E MEN EROR E B M Rede b err ean 193 Operational Space Requirements oor tore R ises an t Pd pO ros rH EX M REO a d Rad 193 Bquipment Footprint Templates risien esia t dat Oe mM ek at iu te URDU a OT Eana aa ie 194 Computer Room Layout P GQ sue ioc aot eate teclas Legi t dan IS iba en o uq aurei za dcn ta obe a 194 Power Plus Configura Hots ces nonrpie a esie bci ord tia eto het cioe ond 1S Duet s Eva videt oven 195 Conversion Factors and Formulas eesseeeeeeeseeeeeeeeeee AS ense nennen ee esse seit sas ee sees e e esie nun 198 Sample of am Installation Schedules ion ste be prn tot Hip EP Lupe Ep be Aere Ue IEEE OE 199 Sample Site Inspection Checklist ehe tons aeterna tea ei ete tte teet de tati aep eit ede let dert edo 200 Delivery SUE V M PAS 202 D Operating System Boot and Shutdown seen 205 System Boot Configuration Optom cvs rroeoserrhe bases eie pv oon rta Rl lee acai aco e e E er o 205 BOG TUX GR ME 207 HP UX BOONE ihi sce De ebore PI Rr BINNEN EO RISE COURIR NT URB QUIS NEG S SUA NOS 207 SingleUser Mode HP UX BOON gesien a EE ome OH ER epus a bei ament ea epe Ee RR ERN ia 209 LVM Maintenance Mode HP UX BoOBBg rep umts e top pr Hr pisse Eae e LIP HO pce LE 210 Booting the Microsoft Windows Operating System sss e e 211 Booting the Red Hat Linux Operating Systemics carci onte aeta er bp CO Iib eoi epus Dae 212 Bootin
25. LEDs Front Panel LEDs There are seven LEDs located on the front panel Figure 5 2 Front Panel with LED Indicators C2 Attention C23 Remote Standy Power Power Fault C3MP Present Power EM RUN HP Integrity rx7620 Server LED Indicators 75 Bulk Power Supply LEDs 76 Table 5 2 Front Panel LEDs 1 GPM stands for global power monitor 2 MP stands for manageability processor 3 PDC stands for processor dependent code LED Driven By State Description Power GPM On Green 48V Good LED works even if MP is not installed or installed and not active Off 48V Off Standby Power GPM On Green 3 3V standby good LED works even if MP is not installed or installed and is not active Off 3 3V Off MP Present GPM On Green At least one MP is installed and active Off No MPs are installed or at least one is installed but not active Remote MP thru GPM On Green Dial in remote console enabled Off Dial in remote console is disabled or MP not installed or MP installed and not active Attention MP thru GPM Flash Yellow Chassis log alert unread Off No alert or MP not installed or MP installed and not active Run PDC MP thru On Green One or more partitions running GPM Off No partition running or MP not installed or MP installed and not active Fault PDC MP thru Flash Red One or more partitions have reported a fault GPM Off No partitions running or MP not installed or MP insta
26. NOTE 1 After a DFW copy of a Cell PDHC firmware image is captured the version displayed by the sysrev command will not be correct until the cell PDHC is reset using the ru command or AC power is cycled 4 Perform steps 6 and 7 from Step 6 5 Example To upgrade the System Firmware firmware MP CM dfw kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkx k KKKKK KKKKK wk KR Duplicate Firmware Utility Aedes KKKKK KKKKK X KR C Copyright 2001 Hewlett Packard Company dde eK RE All Rights Reserved eee KKKKK KKKKK kkkk THIS PROGRAM IS NOT LICENSED TO CUSTOMERS kk KKKKK KKKKK This program is intended for use by trained HP support dk ek personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This dod program is the property of HP kkrk KKKKK KKKKK kk k k k Version 1 04 k k kk k kkkkxk KKKKK kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kk kkkkxk Flash Current Number Cabinet Name Partition Handle Firmware Version Comments al 0 PDHC 0A 0 256 A 003 034 Current 2 0 PDHC OB 0 264 A 003 034 Old 3 0 SFW OA 0 320 21 001 Pri PA 4 0 SFW OB 0 328 21 001 Sec PA 5 0 PDHC 1A 0 257 A 003 034 Current 6 0 PDHC 1B 0 265 A 003 034 Old 7 0 SFW 1A 0 321 22 002 Pri PA 8 0 SFW 1B 0 329 22 002 Sec PA Note You can only duplicate one firmware type at a time Enter the Entities to be updated EX 7 8 3 Enter the source entity for the
27. None Cable Management Arm 5065 5951 None Cable DVD Power A6752 67021 None Cable Internal Smart Array RAID A7027 63001 None Cable Intrusion Switch A6093 67025 None Cable Mass Storage Power 1 short A6752 67019 None Cable Mass Storage Power 2 long A6752 67020 None Cable PCI OLR Switch AB297 63001 None Cable SCSI Bundle A6752 63019 None Cable System Fan External A6752 67022 None Cable System Fan Internal A6752 67023 None DC to DC Converter Low Voltage VRM 0950 4122 None DC to DC Converter High Voltage VRM 0950 4123 None DIMM Installer Tool A5201 68003 None DIMM Extractor Tool A5201 68005 None Fan Turbo Cooler A6436 67001 None Fan Turbo Cooler dual core processor A9767 04008 None Filler Bulkhead Core I O A6752 04017 None Filler Internal Disk A6198 60003 None Harness Main Power A6752 67025 None Intrusion Switch 5040 6317 None Jumper PDU PDU 2 5 m C19 C20 8121 0802 None Jumper UPS PDU 4 5 m C19 C20 8121 0806 None Kit Cell Board Air Baffle A6913 67005 None Kit Removable Media Rail A6752 67011 None Kit Side Top Covers A7027 67001 None M Cable A6144 63001 None Nameplate HP Integrity rx7620 Server A7027 40001 None Panel PCI Upper Right Side A6752 67036 None PCA Disk Backplane A6752 67004 None PCA Front Panel Display 6752 67005 None PCA LAN SCSI Procurium A6794AX A6794 69001 172 Parts and Accessories Table A 1 HP Integrity rx7620 Server Field Replaceable Unit FRU List conti
28. O OL Card Methods There are three methods for performing OL operations on PCI I O cards pdweb The Peripheral Device Tool pdweb web based method of performing OL olrad The command line method of performing OL Attention Button The hardware system slot based method of performing OL Prerequisites for Adding a PCI I O Card Using the Attention Button The prerequisites for this procedure are as follows e Drivers for the card have already been installed e There are no drivers associated with the slot e The green power LED is steady OFF Should the empty slot be in the ON state use the olrad command or the pdweb tool to power the slot OFF e The yellow attention LED is steady OFF or is blinking if a user has requested the slot location e For details on card installation see the host bus adapter HBA documentation e To determine the status of all the PCI I O slots run the olrad q command e Before attempting to insert a PCI I O card into the PCI X card cage assembly backplane slot obtain a copy of the interface card guide for instructions on preparing the operating system for the online addition of the PCI I O card CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server This procedure describes how to perform an online addition of a PCI card using the attention button for cards whose drivers support online add or
29. OEA pur ptu Ope M REO Rei a teme 120 Removing and Replacing the PCI X Card Cage Assembly sse 121 Removing the PCI X Card Cage Assembly ere ier eth aisle Ee EE RN TN eco e Cete ren ies 122 Replacing the PCI X Card Cage Assembly s des oieod ioo cetus eeu Qaoh utis pute daa uor ubica 123 Removing and Replacing the Mass Storage Backplane 2 aiieteste teret entis teti t 124 Removing the Backplane a eerte torrente eese eem aotem fet as tel Eee Rl eio e tees 124 Replacing the backplang asiuueeire dete Gute eret totae e echo a tnde esi uo tutu e ND Mee ute eaa ead 125 Removing and Replacing a Processor T rbo Cooler Patios set oe bee tacens 126 Removing a Turbo Cooler Dat eto ie e nea epi ame teres etude teu Een oa mes na epe evum ENDE 126 Replacing a Turbo tzooler Panos tio repo test t Hu mp nta revue ip eas 127 Removing and Replacing a Cell DBoard m eei erm ee ot tetolr I dee to Ie bete eee eene lata eret ERA Re 128 Removing aCell Boards og ode Dalee op paa LP Pee SNR Unna I E EEE nam ete Oe 129 Replacing a Cell BOIS sitoelsedt esr rtente equipe dude E E E Nod du n RED d E dh 130 Cell Break Fix Upgrade and Downgrade Proceditte uocat es iere eere ree Rae irridet 132 Upgrading Using the FW Command rete aeg el ee eg seed Cae Run 132 Upgrading Using tbe DEW C ORtTatid de fa asivete actos le mit Na usb seb seduta 139 Downgrading Using the DEW Gonnyiand s iieri teer eno eost etor xta sepu e Rey erede tied op Mia en 141 Inst
30. PCI X VRM follow these steps 1 Power off the server we IMPORTANT Power must be removed from the PCI X card cage assembly to continue Remove right side cover Remove PCI side panel Identify the VRM to be replaced 1 through 4 Unscrew the VRM from the bracket two screws on non component side Lift up and gently pull the VRM from the socket ATF ON Replacing the PCI X VRM To replace a PCI X VRM follow these steps Firmly seat the VRM into the socket Be careful not to bend pins Attach the bracket to the VRM using the two screws removed earlier Replace the PCI side panel on the chassis Replace the right side cover on the chassis Power on the server guo meg mor Removing and Replacing the PCI OLR Assembly The PCI OLR assembly is located in the rear of the chassis All system power must be removed before attempting to remove or replace this component 116 Removing and Replacing Components A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 23 PCI OLR Assembly Location MRL Open MRL Closed Removing the PCI OLR Assembly Figure 6 24 PCI MRL Detail ET NOTE Itis highly recommended that extra PCI MRLs are available as these may be easily broken during removal or replacement To remove a PCI OLR assembly follow these steps 1 25 3 4 Shut down the system and
31. Replacing Components Table 6 4 PCI X Power Supply LEDs continued LED Driven By State Description Fault Each supply Flash Yellow The temperature within the power supply is above the lower threshold On Yellow The temperature of the power supply is approaching the thermal limit Flash Red Power supply has shut down due to an over temperature condition a failure to regulate the power within expected limits or a current limit condition Off Normal operation 1 LPM stands for local power monitor Removing a PCI Power Module Figure 6 21 PCI Power Module Detail To remove a PCI power module follow these steps 1 Securely grasp the handle on the front of the power module 2 Slide and hold the locking tab to the right and pull the PCI module from the chassis Replacing a PCI Power Module To replace a PCI power module follow these steps 1 Slide the PCI power module into the chassis until the locking tab clicks and locks 2 Power on the system Use PE and PS commands to confirm success 3 Note status of Power Supply LEDs The green LED should be on and the fault LED should be off Removing and Replacing a PCI Power Module 115 Removing and Replacing the PCI X Voltage Regulator Modules Removing the PCI X VRM A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server To remove a
32. System firmware image 7 140 Removing and Replacing Components A 6 Are you sure that you want to continue Y N y Updating device SFW 0A Erasing Flash es This may take several minutes DFW has completed successfully for all entities Once DFW has completed verify the following message is returned DFW has completed successfully for all entities CAUTION DO NOT RESET or AC POWER CYCLE the cell or server unless you have received confirmation that DFW has completed successfully Repeat the DFW command immediately if the firmware failed to complete successfully Perform steps 11 and 12 Downgrading Using the DFW Command 1 If problems are encountered during the firmware update procedure it may be necessary to use the MP DFW command The DFW command can be used to copy a PDHC or a System firmware image from one cell to another The steps for upgrading using the DFW command are the same as listed in Upgrading Using the DFW Command page 139 with two additional steps OSP the PDHC FPGA image to the new cell Use DFW to copy the PDHC image to the new cell image A Use DFW to copy the PDHC image to the new cell image B AC power cycle the cell M gam OQ M Use DFW to copy the System Firmware image to the new cell image A 6 Use DFW to copy the System Firmware image to the new cell image B Perform step 1 from Step 1 and step 2 from Step 2 Do not reset the cell until step 4 on Step 4 has
33. Target connection succeeded for hpdst70 Source ftup FUTests OSUFU depot Targets hpdst 70 Software selections PHSS_28608 KERN RUN r 1 0 a HP UX_B 11 23 v HP fr 1 0 fa HP UX_B 11 23 Selection succeeded Beginning Analysis and Execution Session selections have been saved in the file f sw sessions swinstall last The analysis phase succeeded for hpdst70 Uninstalling the Firmware Update Tool on HP UX Enter the swremove command swremove x autoreboot true PHSS 28608 Figure 5 13 swremove Output 10 09 03 05 54 34 PDT BEGIN swremove SESSION non interactive jobid hpdstZ28 0014 Session started for user root ihpdstz8 Beginning Selection Target connection succeeded for hpdstz8 Software selections PHSS 28608 KERN RUN 1 r 1 0 a HP UX B 11 23 64 v HP fr 1 0 fa HP UX B 11 23 IA NOTE Installing on Linux Selection succeeded Beginning Analysis Session selections have been saved in the file f sw sessions swremove last The analysis phase succeeded for hpdstz8 Analysis succeeded Beginning Execution The execution phase succeeded for hpdst28 Execution succeeded More information may be found in the agent logfile using the command swjob a log hpdstz8 0014 9 hpdstz8 10 09 03 05 54 47 PDT END swremove SESSION non interactive jobid hpdst 28 0014 Install the firmware update with the rpm command F
34. as the basic guideline for space plan developments Other factors such as airflow lighting and equipment space requirements must also be considered Delivery Space Requirements There should be enough clearance to move equipment safely from the receiving area to the computer room Permanent obstructions such as pillars or narrow doorways can cause equipment damage Delivery plans should include the possible removal of walls or doors Figure C 2 Cabinet Dimensions ML d 23 5in cd DA sans in nup Ze 92 7 am LE ES Ur PH E I D Sed 041201 Operational Space Requirements Other factors must be considered along with the basic equipment dimensions Reduced airflow around equipment causes overheating which can lead to equipment failure Therefore the location and orientation of air conditioning ducts as well as airflow direction are important Obstructions to equipment intake or exhaust airflow must be eliminated The locations of lighting fixtures and utility outlets affect servicing operations Plan equipment layout to take advantage of lighting and utility outlets Do not forget to include clearance for opening and closing equipment doors Clearance around the cabinets must be provided for proper cooling airflow through the equipment The service area space requirements shown in Figure C 3 are minimum dimensions If other equipment is located so that it exhausts heated air nea
35. be all inclusive nor is this list meant to imply every plug shown is one that is available for the server Figure C 7 Unterminated Plug Figure C 8 L6 20 Plug Figure C 9 IEC 309 Plug 196 General Site Preparation Guidelines Figure C 10 CEE 7 7 Plug Figure C 11 L6 30 Plug Figure C 12 NEMA 5 20P Plug on left receptacle on right Figure C 13 ISI 32 Plug Power Plug Configuration 197 Figure C 14 GB 1002 Plug Power Cable The power cable length and configuration will vary based on the region the server ships to This is an example of one power cable configuration used to supply power to the server Figure C 15 L6 20 Power Cable Conversion Factors and Formulas The conversion factors provided in this appendix are intended to ease data calculation for systems that do not conform specifically to the configurations listed in the Site Preparation Guide Listed below are the conversion factors used in this document as well as additional conversion factors which may be helpful in determining those factors required for site planning Conversion Factors e Refrigeration 1 watt 86 kcal h 1 watt 3 412 Btu h 1 watt 2 843 x 10 4 tons 1ton 200 Btu min 198 General Site Preparation Guidelines 1ton 12 000 Btu h 1ton 3 517 2 W e Metric Equivalents 1 centimeter 0 3937 in 1 meter 328 ft 1meter 1 09 yds 1in 2 54 cm 1ft 0 305 m 1CFM 1 7m3 h e kVA Conversio
36. be removed 11 Disconnect the CPU power pod cable connector from its connector on the cell board 12 Disconnect the turbo cooler fan cable from the cell board Figure 6 48 CPUs with Turbo Cooler Fans Cell CPU CPU Controller CPU CPU Socket 2 Socket 3 Socket 1 Socket 0 13 Loosen the four T15 heat sink screws and the four turbo cooler load screws Loosen these screws in an X pattern rotating each screw two to three turns until all screws are loose from the cell board 14 Push the load screw sequencer toward the fan Removing and Replacing a Central Processing Unit 147 15 A 16 17 Locate the peep hole on the left side of the CPU turbo cooler by slightly rotating the fan blades WARNING When unlocking the ZIF socket do not exceed the one half turn counter clockwise Damage to the socket will occur requiring replacement of the cell board Insert the 2 5 mm hex driver between the fan blades through the peep hole and turn the ZIF socket lock screw one half turn counter clockwise to unlock the CPU from the socket Lift the CPU turbo cooler power pod assembly straight up and off the cell board ET NOTE If the socket will not be populated with a replacement processor module place the ZIF socket cover over the ZIF socket Tighten the four screws in an X pattern until secure Replacing the Processor AN CAUTION Avoid removing any VRMs to connect the CPU power pod and turbo cooler cables into the
37. been completed Example To downgrade the PDHC image A firmware MP CM gt dfw kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkk kkkkk donde Duplicate Firmware Utility donde kkkkk kkkkk donde C Copyright 2001 Hewlett Packard Company doe Xd e All Rights Reserved Wc e kkkkk kkkkk xke THIS PROGRAM IS NOT LICENSED TO CUSTOMERS ke kkkkk kkkkk This program is intended for use by trained HP support ok de personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This RRR program is the property of HP XR e kkkkk kkkkk uid ld Version 1 04 Ak kkkkk kkkkk kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk Flash Current Number Cabinet Name Partition Handle Firmware Version Comments 1 0 PDHC 0A 0 256 A 003 034 Current 2 0 PDHC OB 0 264 A 003 034 Old 3 0 SFW OA 0 320 22 002 Pri PA 4 0 SFW OB 0 328 22 002 Sec PA 5 0 PDHC 1A 0 257 A 003 023 Current 6 0 PDHC 1B 0 265 A 003 023 Old 7 0 SFW 1A 0 321 21 001 Pri PA 8 0 SFW 1B 0 329 21 001 Sec PA Note You can only duplicate one firmware type at a time Enter the Entities to be updated EX 7 8 1 Enter the source entity for the PDHC firmware image 5 Are you sure that you want to continue Y N y Updating device PDHC 0A Erasing Flash es This may take several minutes DFW has completed successfully for all entities Once DFW has completed verify the following mes
38. buttons on the back of the core I O card as explained in Table 5 8 Figure 5 9 Core I O Button Locations OLR MP Reset HP Integrity rx7620 Server LED Indicators 83 Table 5 8 Core I O Buttons Button Identification Location as silk screened on the bulkhead MP Reset Center of the core I O card Function Resets the MP NOTE If the MP Reset button is held for longer than five seconds it clears the MP password and resets the LAN RS 232 serial port and modem port parameters to their default values LAN Default Parameters P Address 192 168 1 1 e Subnet mask 255 255 255 0 Default gateway 192 168 1 1 e Hostname gsp0 RS 232 Serial Port Default Parameters e 9600 baud e 8bits No parity Remote Modem Port Parameters Disabled OLR Symbol next to button is shown below Top end of the core I O card Li PCI X Hot Plug LED OL LEDs Request OL for this core I O slot NOTE The OLR function is not enabled for the core I O card Table 5 9 OL LED States State Power Green Attention Yellow Normal operation slot power on On Off Slot selected slot power on On Flashing Slot needs attention slot power on On On Slot available slot power off Off Off Ready for OL slot power off Off Flashing Fault detected slot power off Off On Slot powering down or up Flashing Off Disk Drive LEDs There are two tri color LEDs on e
39. cable are taped together separate the cables 5 Disconnect the four pin power connector from the MSBP 6 Loosen the screw on the hold down plate to adjust the length of the cable 52 Installing Additional Components 7 8 9 10 11 12 13 14 15 16 Figure 3 12 Hold Down Plate and Screw Hold Down Plate Slide the hold down plate toward the rear of the chassis until the tabs disengage Do not move the plate further than necessary to disengage the tabs Adjust the length of the SCSI and power cables to the appropriate service length described in Step 3 Pull any excess cable length into the main chassis and store it between the MSBP and the SCSI Ferrite Replace the hold down plate by pushing down while sliding it toward the front of the chassis Engage the tabs into the slots Verify that all the tabs are captured in their slots Remove the DVD RW drive from the package Install the side rails onto the drive Connect the removable media bay power cable to the loose end of the Y power cable on the DVD RW assembly Ensure that the mating connector pair passes through the ruggedizer Route the removable media bay power cable into the ruggedizer cable clip Connect the SCSI cable to the DVD RW dive Ensure that the power cable passes over the top of the SCSI cable DVD RW Installation Instructions 53 Figure 3 13 SCSI and Power Cable Routing L I vi l s US 17 Slide the DVD RW dri
40. card The Procurium board is hot pluggable Mass Storage Disk Backplane Internal mass storage connections to disks are routed on the mass storage backplane having connectors and termination circuitry All disks are hot pluggable The HP Integrity rx7620 Server accommodates one internal removable media device Therefore only one power connector for aremovable media device is required on the mass storage backplane The mass storage backplane incorporates a circuit that allows power to the internal removable media device to be programmatically cycled Server Description Dimensions The dimensions of the HP Integrity rx7620 Server are as follows e Width 4445 cm 17 5 inches constrained by EIA standard 19 inch racks e Depth Defined by cable management constraints to fit into standard 36 inch deep racks Rittal Compaq Rosebowl I 25 5 inches from front rack column to PCI connector surface 26 7 inches from front rack column to MP core I O connector surface 30 inches overall package dimension including 2 7 inches protruding in front of the front rack columns e Height 10U 0 54 cm 43 91 cm 17 287 inches This is the appropriate height for a product that consumes 10U of rack height while allowing adequate clearance between products directly above and below this product Fitting four server units per 2 m rack and upgrade of current 10U height products in the future are the main height constraints System Chassis The mass
41. container adds approximately 50 Ib to the total system weight The size and number of miscellaneous pallets is determined by the equipment ordered Table B 2 HP Integrity rx7620 Server Component Weights Quantity Description Weight Ib kg lor2 Cell board 27 80 Ib 12 61 kg 1 System backplane 12 lb estimate 5 44 kg estimate 1 PCI X backplane 20 4 lb 9 25 kg 2 Bulk power supply 18 lb 8 2 kg 1 Mass storage backplane 11b 0 45 kg 2 PCI DC to DC converters 51b 2 27 kg Electrical Specifications This section provides electrical specifications for HP Integrity rx7620 Servers Grounding The site building shall provide a safety ground for each AC service entrance to all cabinets Install a protective earthing conductor that is identical in size insulation material and thickness to the branch circuit supply conductors The PE conductor must be green with yellow stripes The earthing conductor must be connected from the unit to the building installation earth or if supplied by a separately derived system at the supply transformer or motor generator set grounding point AC Powered Systems Circuit Breaker The Marked Electrical for the HP Integrity rx7620 Server is 12 amps The recommended circuit breaker size is 20 amps for North America For countries outside North America consult your local electrical authority having jurisdiction for the recommended circuit breaker size The HP Integri
42. cover Flip the card slot PCI MRL to the open position Firmly pull up on the tabs on the card separator Remove the card from the PCI slot Replacing a PCI PCI X Card To replace the PCI PCI X card follow these steps 1 A a FON 6 7 Position the replacement PCI PCI X card in the slot NOTE Use a slow firm pressure to properly set the card into its connection PCI PCI X cards tend to be difficult to install Flip the card slot PCI MRL to the closed position Replace the top cover Connect all cables to the replacement PCI PCI X card In SAM s Replace Card window click OK SAM powers the PCI slot back on and turns off the slot s attention indicator SAM also resumes the card s driver operations Confirm that the replacement card is online and powered on using SAM s I O Cards screen Exit SAM Option ROM To enable faster booting system firmware does not auto scan PCI devices with an Option ROM In order to boot from a PCI connected device with an Option ROM it must be added to the table of boot devices To add an option ROM follow these steps 1 2 o SND Install the I O card into the chassis Boot the server to the EFI shell Run the EFI search command To add a single card search cell pci slot gt To add all cards search all Issue the EFI map r command To enter the Boot Manager issue the exit command From the EFI Boot Manager Menu select Boot Option Mainten
43. de ie Ee e e Ea VEASE EAS ENEE ERRES 102 Side Cover Removal Detail cccecescccsssescceesssssceessssscessesssceesesssceesesssceescssseeesssseessesssceesessseess 102 Disk Drive Locatlon A rettet eee e e eset ce de reps 103 Disk Drive Detail umet emere beet asec a E EEAME 103 CD DVI DATEocati n eose e elato ti erue ed Cree es leere een esa tb eroe a EE Eee 3E eOe se tp erese ed iens is 105 CD DVD DAT Detail tete tte e ede e E ete hobs cet E vp eet be ele ee pea Is 105 Front Smart Fan Assembly Locations d eoe E mete esl eei ru Prio mess eate p y rau ep Rd UA 106 Front Ban Detail on etes tee teo speret rtr E wa ann ASA ers eee 107 Rear Smart Fan Assembly Locations iioc ceneetuis cte pisi va eta e Deli de tu Een REIR CIE IO YE edt EH RE 108 RearlharvDetall zc fee elec AT Um t An A EM UA EM Ne AE ATE 109 PCI Smart Fan Assembly Location ey ettt etn od otia o etter wend ER ROVER SNP Y NE Be Nae 110 POI Smart Pan Assembly Detail eter repr tete tbe dpa Deka Rt E E Ad 110 BBS LEoC dtiOB tto er pee Eee dee re ees dero eap Eee 111 BPS Dorn Karr PR AE E e tms Du E e i n T PVT REUS ENT TE ETE E 112 Extraction Eevers i sce eR ee UV haah 113 PCI Power Module Location rarere teen teer neues co Lote eaa eee ep eae ea eoo ve eb ap Evene a ERR Ve eaa a KEPT RAT 114 PCI Power Module Detail eeeeeeeeeeeeee esee nennen TE n neret ee aee sea sete e aee enean sete nna 115 Locating the VRMs on the PCI X Backpl f 5renie tret i
44. e ud tou 60 Front Panel Display ste tnb Emp D ppt tbi Dem b Dre pu eL epu Io Due 62 DACA ESAE Viam A 3915 REPE E 63 TeCommand SCcreen sa oet eicoeteov ees eet eere eee retirer id retes tie sees tav eeu de E 64 ls Commmand Screen vet ee oreet sade eon ve ree deen Seed nere recetee sede eene vet eoo de ee ore edle vete Hebe yv Eee ta 65 Example sa Comando epe nte tim beds ete tat ege nete dedo ea irat s tet aeg n Mondo eod ee iota Mu 66 Browser WIDndOoW seite t bestiis con ea Eo EI EE eI Es 66 The du Commoand Screen edt esee ds oten tte eee es tetto eov eceab ts opea rt bo vows on donde eeu teen ts beads tweed 67 Console Output Device Ment asecch tdt ae uto hee epu ob o tuens te aioe Lade 68 de Command OUEDUE sass cn tr Rodeo ete ee roc ter em Ee wand eon cr Ev I Seo n RM a GN 75 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 5 14 5 15 5 16 5 17 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8 6 9 6 10 6 11 6 12 6 13 6 14 6 15 6 16 6 17 6 18 6 19 6 20 6 21 6 22 6 23 6 24 6 25 6 26 6 27 6 28 6 29 6 30 6 31 6 32 6 33 6 34 6 35 6 36 6 37 6 38 6 39 10 Front Panel with LED Indicators eeeseeeeeeeeeeeeee nennen e nee ener nen eene sese esee rese eser een 75 bP5 EBD Eocatlons mete D eere Eee dh RE 77 PCI X Power Supply LED Locations esiri dept e ete eee eto lets ie ee TEE ETa esia TAE ad E Fee e TTi 78 Eront Rear and PCLT O FanEEDS one ete EE e We En ei ei Een 79 Cell Board EEDE cationsg no
45. epe EE ees 176 system Power SpecifiCalloris visti vibe dto Gaia Estee ub d seio Hace ines 176 DC Poweted Systetita iar qr er teal ee utu dedito cue DP a A 177 Environmental Specifications esed tete rnb De esie AS tS Meg Nt ne frc uq Gad 177 Temperature and E CAE ove can leo eet eiis ee te rra EERE eM EO s ENE e CEN MERE us EE DS VETERAN EN ease e 177 Operating EBVIEODICDLU escort E beh ttd rust Eee IPM MPH tud dt E 177 Environmental Temperature Sens0E sisira rode river p HIDE nage eames 177 Non Operating Environment ie or prete eoi Ret Ree aera RN I Read a anes 177 dos M M N 177 Cell Section Cool poete ihe Mosca oto ibeteiser cbe E a a a a abate Si 177 bulk Power Supply Coolin gessie oe m emite eit bal i tea Oi ge Pty diee er Ee teamed 177 PGI Nfass Storage 5ecton Cooling airsan up ore o I E Cei at I ED pete 178 Standby Coolin gisca NM iae eenaa EAE T SES Aa EEEE ESSE EE E A E A a EBA EERTE EA 178 Typical Power Dissipation and Cooling eeesesssessssssssseirsessresessseesesressersrisresseissreneeseenseeneseense 178 Acoustic Noise Specifications enoni i i ie Roh E TES R E E EE 178 PUI LO APEEP E A orf oc EET EE E A T T E ATA hu ee A oe resa 178 System Reg irements SUMM ATY eriei iei irn e cus eee Wd ee E EEE es EE EE 179 Power Consumption and Air Conditioning es ssessesssesssessseseissersresresstessisresseissreneeseenseenreseense 179 bo e Ld 179 C General Site Preparation Guidelines
46. in the chassis 2 Thefaneasily slides into the chassis Use a slow firm pressure to properly seat the connection 3 Replace the top cover A NOTE A green fan LED indicates the fan is operational Removing and Replacing a Bulk Power Supply The bulk power supply is located in the front of the chassis The BPS is a hot swappable component A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 17 BPS Location BPS Removing and Replacing a Bulk Power Supply 111 we IMPORTANT When a BPS is pulled from the server and then immediately re inserted the server might report an overcurrent condition and shut down Removing a BPS Figure 6 18 BPS Detail To remove a BPS follow these steps 1 Remove the front bezel 2 Open the extraction levers by pulling them outward 112 Removing and Replacing Components Figure 6 19 Extraction Levers 3 Slide the BPS forward using the extractions levers to remove it from the chassis AN CAUTION Use caution when handling the BPS A BPS weighs 18 lbs Replacing a BPS To replace a BPS follow these steps 1 Verify that the extraction levers are in the open position then insert the BPS into the empty slot 2 TheBPSeasily slides into the chassis Use a slow firm pressure to properly seat the connection 3 Ensure the BPS has seated by closing
47. installation Set up CE tool and connect to Remote RS 232 port on MP Apply power to cabinet Housekeeping Check power to BPSs Log in to MP Set LAN IP address on MP Using the Checklist 71 Table 4 2 Factory Integrated Installation Checklist continued PROCEDURE IN PROCESS COMPLETED Connect customer console Set up network on customer console Verify LAN connection Verify presence of cells Power on cabinet 48 V Verify system configuration and set boot parameters Set automatic system restart Boot partitions Configure remote login if required See Appendix B Verify remote link if required Install non factory integrated I O cards if required Select PCI card slot Install PCI card Verify installation Route cables using the cable management arm Install other peripherals if required Perform visual inspection and complete installation Set up network services if required Enable iCOD if available Final inspection of circuit boards Final inspection of cabling Area cleaned and debris and packing materials disposed of Account for tools Dispose of parts and other items Make entry in Gold Book recommended Customer acceptance and signoff if required 72 Cable Connections 5 Troubleshooting This chapter provides preferred stra
48. is above the lower threshold On Yellow The temperature of the power supply is approaching the thermal limit Flash Red Power supply has shut down due to an over temperature condition a failure to regulate the power within expected limits or a current limit condition Off Normal operation 1 LPM stands for local power monitor There is a single three color LED on each system and PCI I O fan Troubleshooting Front fan LED Table 5 5 System and PCI I O Fan LEDs Rear fan LED PCI I O fan LED LED Driven By State Description Fan Status Fan On Green Normal Flashing Yellow Predictive failure Flashing Red Failed Off No power OL LEDs Cell Board LEDs There is one green power LED located next to each ejector on the cell board in the server that indicates the power is good When the LED is illuminated green power is being supplied to the cell board and it is unsafe to remove the cell board from the server There is one yellow attention LED located next to each ejector on the cell board in the server that indicates when it is safe to remove the cell board from the server When the LED is flashing yellow it is safe to remove the cell board from the server HP Integrity rx7620 Server LED Indicators 79 Figure 5 6 Cell Board LED Locations Power LED Table 5 6 Cell Board OL LED Indicators Location LED Driven by State Description On cell board P
49. is relatively rare it might be an issue within your computer room Since metallic contamination can cause permanent or intermittent failures on your electronic equipment HP strongly recommends that your site be evaluated for metallic particulate contamination before installation of electronic equipment Electrostatic Discharge Prevention Static charges voltage levels occur when objects are separated or rubbed together The voltage level of a static charge is determined by the following factors e Types of materials e Relative humidity e Rate of change or separation Table C 2 lists charge levels based on personnel activities and humidity levels Table C 2 Effect of Humidity on ESD Charge Levels Personnel Activity Humidity and Charge Levels 26 32 40 50 Walking across a linoleum floor 6 150 V 5 750 V 4 625 V 3 700 V Walking across a carpeted floor 18 450 V 17 250 V 13 875 V 11 100 V Rising from a plastic chair 24 600 V 23 000 V 18 500 V 14 800 V 1 Source B A Unger Electrostatic Discharge Failures of Semiconductor Devices Bell Laboratories 1981 2 For the same relative humidity level a high rate of airflow produces higher static charges than a low airflow rate 3 Some data in this table has been extrapolated Static Protection Measures To minimize possible ESD induced failures in the computer room follow these precautions e Install conductive flooring conductive adhesive must be used when la
50. lt PDHC Select device h Enter cell number 1 Cell Controller PDHC status Cell 1 FW Revision 3 8086 built FRI AUG 15 12 01 54 2063 MICE Revision 1 8 PDHC state x3b Cerr bib SMG CCO Attention Led is off Power Status x c 12USTBYCRDY EN PUR uflt tflt fanflt LED State x e BIB SMG I2C heartbeat Q x amp 1 XConnection OK 0x81 Xcabinet 0 PCI Backplane 0 PCI Domain 1 8x81 cabinet B cell 1 Ualid 5 m do0Dc ELATI Ready Bit RDY is set to true 1 I2C PWR gt IO Connection Status IO Chassis Phys Location Core Cell Number Temp Fault Status x Ccpu cpul cpu2 cpu3 mmu cell CPU Temp 47 eg C CPU 1 Temp 8 deg C CPU 2 Temp 59 deg C CPU 3 Tenp 8 deg C MMU Temp 36 deg C Cell Board Temp 28 deg C Fan Status x cc See PS command for detail Local I2C Bus Status x COK MP CM gt Replace the right side cover For details see Removing and Replacing a Side Cover page 101 Cell Break Fix Upgrade and Downgrade Procedure This section provides information and upgrade and downgrade instructions These instructions pertain to a break fix scenario where a replacement cell is added to a currently operating system Upgrading Using the FW Command To upgrade the newly added cell using the FW command follow these steps 1 2 3 4 OSP the PDHC FPGA image to the new cell Firmware upgrade downgrade the PDHC image to the new cell AC power cy
51. of the selected MP bus device The following MP bus devices were found oe of i i i i i i i i i i ILANS Sys i IO i iCabi MP iSCSIiBkplniCellsiChassisi BPS i iM Sif 11 iOi i 1 801 i 4 4 4 4 H 10 x xix x i x 1 1 4 You may display detailed power and hardware status for the following items Cabinet I0 Chassis Cell Select Device HU status for MP Sustem Backplane MP Core I 0 5 g No Fault Detected Complex model string 98808 8080 rx7628 MP is not failed Attention LED is Remote LED is on ON Battery state is Last MP software over good reset occurred FRI FEB 13 16 58 29 2004 MP firmware reu 5 818 built on Jan 23 2664 18 11 18 MP CM gt _ Figure 6 64 DE Command MP CM gt de Display summary status of the selected MP device B BPS U CLU f PACI G MP P PM H Cabinet FW revision MP failed over Battery state Attention LED Remote LED Cabinet type XBulk Power Supplies Cabinet Utilities XPartition Console Interface Management Processor Power Management Cell Board Controller PDHC gt Select device Fans Intrusion Clock s etc g 8 MP status 5 818 built on Jan 23 2604 at 18 11 18 false good on on rx 7628 MP Reset Registry Timestamp Task na
52. or osp again to copy or download the correct firmware 12 Reset the partition using the xs command MP CM gt rs This command resets the selected partition WARNING Execution of this command irrecoverably halts all system processing and I O activity and restarts the selected partition Part Name 0 Partition 0 1 Partition 1 Select a partition number 0 or 1 Upgrading Using the DFW Command If problems are encountered during the firmware update procedure it might be necessary to use the MP DFW command The DFW command can be used to copy a PDHC or a system firmware image from one cell to another A NOTE The steps for upgrading using the DFW command are the same as listed in Upgrading Using the FW Command page 132 1 To upgrade the newly added cell using the DFW command follow these steps 1 OSP the PDHC FPGA image to the new cell 2 Tocopy the PDHC image to the new cell use DFW 3 AC power cycle the cell 4 To copy the System Firmware image to the new cell use DFW 2 Perform step 1 from Step 1 and step 2 from Step 2 Do not reset the cell until the next step step 3 is completed 3 Example To upgrade the PDHC firmware MP CM dfw kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkk KKKKK KKKKK kkk kk Duplicate Firmware Utility kkk k k KKKKK KKKKK ERREK C Copyright 2001 Hewlett Packard Company ode EER All Rights Reserved RES KKKKK KKKKK dk THIS PROGRAM IS NOT LICENSED T
53. points using a minimum 6 AWG 16 mm wire ground conductor The following figure illustrates a metallic strip gounding system 184 General Site Preparation Guidelines A NOTE Regardless of the grounding connection method used the raised floor should be grounded as an absolute safety minimum HP recommends the following approaches Excellent Add a signal reference grid to the subfloor The grid should be made of aluminum strips mounted to the subfloor The strips should be 0 032 in 0 08 cm thick and a minimum of 3 0 in 8 0 cm wide Connect each pedestal to four strips using 0 25 in 6 0 mm bolts tightened to the manufacturer s torque recommendation Better A grounded 6 AWG minimum copper wire grid mechanically clamped to floor pedestals and properly bonded to the building site ground Good Use the raised floor structure as a signal reference grid In this case the floor must be designed as a ground grid with bolted stringers and corrosion resistive plating to provide low resistance and attachment points for connection to service entrance ground and server equipment The use of conductive floor tiles with this style of grid further enhances ground performance The structure needs to be mechanically bonded to a known good ground point Figure C 1 Raised Floor Ground System Floor panel Ground wire to power panel Hex bolt Band and pedestal Grounding braid to computer equipment 60SPo10A 30 99 Eq
54. required 4 Cords AO amp BO only5 Cords Al amp B1 only Select Option If two separate power sources are available the two power supplies can be plugged into the separate power sources increasing system reliability should one power source fail AC Input Power 55 A A Figure 4 2 Power Source Versus Power Distribution Power Source A Power Source B 180 269 VAC WARNING Voltage is present at various locations within the server whenever a power source is connected This voltage is present even when the main power switch is in the off position To completely remove power all power cords must be removed from the server Failure to observe this warning can result in personal injury or damage to equipment NOTE System firmware will prevent boot when a single power cord configuration is detected DC Input Power 56 we The HP Integrity rx7620 Server has two fast hot pluggable DC bulk power supplies that provide 2N redundancy The power configuration is passed to the operating system using the pwrgrd Power Grid command Each of the four selections in the pwrgrd command matches one of the configurations The appropriate option should be selected for the actual line cord configuration With the correct configuration selected the LEDs should be green When the pwrgrd command is invoked the following menu displays IMPORTANT Options 1 and 2 are for HP internal use only Do not select these option
55. slots loaded are recommended The DIMM sizes in a quad can be different but the DIMMs in an echelon must be the same size Table 1 4 DIMM Load Order Number of DIMMs Installed Action Taken DIMM Location on Cell Quad Location Board 2 DIMMs 1 Echelon Install First OA and 0B Quad 0 4 DIMMs 2 Echelons Add Second 1A and 1B Quad 1 6 DIMMs 3 Echelons Add Third 2A and 2B Quad 2 8 DIMMs 4 Echelons Add Fourth 3A and 3B Quad 3 10 DIMMs 5 Echelons Add Fifth 4A and 4B Quad 0 12 DIMMs 6 Echelons Add Sixth 5A and 5B Quad 1 14 DIMMs 7 Echelons Add Seventh 6A and 6B Quad 2 16 DIMMs 8 Echelons Add Last 7A and 7B Quad 3 Figure 1 9 DIMM Slot Layout PDH Riser Board Addre ii Address Butter Controller Butter Eufhr Controller Buffer Buffer QUADS QUAD 1 QUAD QUAD Buffer Euff r Controller Address To Gusd2 AddressController Buffers To Guad3 AddressController Buffers To Guad3 AddressController Buffers To Gusd2 Address Controller Buffers Front Side But Call Front Side Bur Controller CPU2 CPUS CPU 1 CPU Detailed HP Integrity rx7620 Server Description 25 Cells and nPartitions ET ET NOTE In the following discussion the term cell refers to a cell board A cell board that has an I O link to a bootable device and a console usually supplied by an MP SCSI core I O card is a potential boot cell The cell that contains the boot console I O path
56. system cabinets The supply air is then available near the cooling air intake vents of the computer system cabinets Table C 1 Computer Room Environment Parameter Operating Limits Recommended Maximum Rate of Change Non Operating Operating Range per hour Ranges Temperature 41 to 95 F 68 to 77 F 20 C hr no tape media 40 C to 70 C 5 to 35 C 20 to 25 C 10 C hr with tape media Humidity 15 to 80 with no 40 to 55 RH 30 RH hour 90 RH condensation 40 to 55 non condensing non condensing non condensing recommended 65 C 149 F 1 The temperature ranges stated are at 0 to 5 000 ft The maximum operating temperature must be derated by 1 C 1 000 ft from 5 000 to 10 000 ft 188 General Site Preparation Guidelines Air Conditioning System Installation All air conditioning equipment materials and installation must comply with any applicable construction codes Installation of the various components of the air conditioning system must also conform to the air conditioning equipment manufacturer s recommendations Air Conditioning Ducts Use separate computer room air conditioning duct work If it is not separate from the rest of the building it might be difficult to control cooling and air pressure levels Duct work seals are important for maintaining a balanced air conditioning system and high static air pressure Adequate cooling capacity means little if the direction and rat
57. the System Firmware image B firmware MP CM gt dfw kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkk KKKKK KKKKK kk kk k Duplicate Firmware Utility kk kk k KKKKK KkKKKK EAE C Copyright 2001 Hewlett Packard Company ok RRR NOE All Rights Reserved Rok KKKKK KkKKKK nk THIS PROGRAM IS NOT LICENSED TO CUSTOMERS kk KKKKK KkKKKK This program is intended for use by trained HP support kkkkk personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This do KER program is the property of HP ERER KKKKK KkKKKK k k k k k Version 1 04 k k k k k KKKKK KkKKKK kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkxk Flash Current Number Cabinet Name Partition Handle Firmware Version Comments d 0 PDHC 0A 0 256 A 003 034 Current Removing and Replacing a Cell Board 143 2 0 PDHC OB 0 264 A 003 034 Old 3 0 SFW 0A 0 320 21 001 Pri PA 4 0 SFW OB 0 328 22 002 Sec PA 5 0 PDHC 1A 0 257 A 003 034 Current 6 0 PDHC 1B 0 265 A 003 034 Old 7 0 SFW 1A 0 321 21 001 Pri PA 8 0 SFW 1B 0 329 21 001 Sec PA Note You can only duplicate one firmware type at a time Enter the Entities to be updated EX 7 8 4 Enter the source entity for the System firmware image 7 Are you sure that you want to continue Y N y Updating device SFW OB Erasing Flash es This may take several minutes DFW has completed successfully for all entitie
58. the extraction levers 4 Replace the front bezel ET NOTE The BPS LED should show BPS operational and no fault The BPS LED should be green Removing and Replacing a PCI Power Module The PCI power module is located in the front of the chassis The system power must be turned off to replace this FRU For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 Removing and Replacing a PCI Power Module 113 A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 20 PCI Power Module Location PCI Power Modules Preliminary Procedures Before removing or replacing a PCI power module follow these steps 1 2 3 4 5 Identify the failed power supply Table 6 4 describes the PCI X Power Supply LED state Connect to ground with a wrist strap Visually inspect the replacement part for proper number and revision Shut down the partition and power off the PCI domain Remove the front bezel Table 6 4 PCI X Power Supply LEDs LED Driven By State Description Power Each supply On Green All output voltages generated by the power supply are within limits Off Power to entire system has been removed Attention MP through PCI Yellow For LED status in combination with the green power LED LPM for PCI X slot status see Table 5 9 114 Removing and
59. to continue Y N y Updating PDHC FPGA Removing and Replacing a Cell Board 133 Firmware updating progress is reported NOTE 1 When a SEU is connected to an system cabinet id 8 is assigned to the SEU NOTE 2 These entities might be different depending on your server NOTE 3 X X X is the version number corresponding to the version of the FPGA on the other cells A CAUTION DO NOT RESET the cell or server unless you have received confirmation that the FPGAs were updated successfully Repeat the firmware update procedure immediately for all entities failing to update successfully 2 Verify that you have received confirmation that the FPGA was updated successfully If any entity failed to update properly do not continue until the entity have been successfully updated A successful update returns the following message OSP has completed successfully for all selected FPGAs ET NOTE FPGAs updated in step 4 will not show the updated version when running the sysrev command until after the next AC cycle of the cell Once ALL firmware images have been updated you are instructed to AC cycle the cell later in this procedure 3 Do not reset the cell until the next step step 4 is completed 4 Run the Firmware Update Utility to update Cell PDHC version s to A X X X See Note 1 in this step using the w command MP CM fw Enter the following information when prompted Enter the Entities to b
60. to power off and on hardware components Shutting Down an nPartition This procedure is for checking an nPartition boot status and if needed shutting down HP UX on the nPartition 1 Advise the customer that the system one or more nPartitions must be shut down for repairs Ensure that the customer has a current backup and inform the customer of the anticipated downtime Log in to the MP Use the Virtual Front Panel VFP to view the current state of the nPartition to be shut down From the MP Main menu enter VFP to access the Virtual Front Panel menu and select the nPartition whose boot state you want to view To exit the VFP display enter Control b B If an nPartition has booted HP UX or if it is in the process of launching HP UX you must shut down HP UX on the nPartition When HP UX is running on an nPartition its VFP displays HP UX heartbeat with a blinking asterisk to indicate its interactivity From the MP Main menu enter CO and select the console for the nPartition you plan to shut down You should have access to the HP UX login prompt or command line when using the nPartition console If you have no interactivity at the console HP UX might be halted or hung At the nPartition console log in to HP UX and shut down the operating system After making arrangements with the customer issue the shutdown command to shut down and halt HP UX on the nPartition For example the shutdown h 240 command
61. with their associated I O domain or PCI power domains bricks Using the Command menu PE command to manage cabinet power is equivalent to using the front panel power switch If you need to disable all power in the entire cabinet you also must disconnect all power cords to disable all housekeeping power IMPORTANT Because of power redundancy capabilities it is important that each power cord plug into its proper receptacle Label all power cords to indicate into which receptacle each cord plugs Ensure that the cabinet power has been turned off before disconnecting any power cords Perform the hardware removal and replacement procedure for the powered off component Powering On the System To power on the system after a repair follow these steps 1 If needed reconnect all the power cords to the appropriate receptacles and power on the system To power on the hardware component that was powered off and replaced use the MP Command menu PE command To verify that power is enabled to the newly replaced part use the PS command For example Enter C from within the PS command to select the cell If power is absent from the part enter the PE command and select T to power on the entire cabinet NOTE You might need to allow time for some components to complete power on self test POST before a complete status is available Reboot each nPartition See Appendix D Verify system functionality by using the On line D
62. 0 Inserting the Pins Into the Rack 38 Unpacking the Server 5 Pull the string plunger out move the handles apart and install the shoulder washer end of the panel into the keyway feature Figure 2 11 Lift Handles Mounted Continue to pull the handles apart until the spring plunger snaps into final position The spring plunger will drop down into the recess position Ensure that the handles are secure by pressing the handles together and moving back and forth Repeat steps above for the other handle To lift the server rotate the handles 90 degrees to horizontal position NOTE If installing the server in a rack see the Installation Guide HP J1530B Rack Installation Kit After moving the server remove the lift handle panels from the chassis and reinstall the server covers and front bezel See the Installation Guide HP J1530B Rack Installation Kit Installing the Server Into the Rack Any server that is to be installed into a rack is shipped with equipment slides With every set of slides comes an installation guide Installation Guide HP J1530B Rack Installation Kit Installing the Server Into the Rack 39 40 3 Installing Additional Components This chapter describes the installation of those components not installed at time of delivery Wheel Kit Installation Before beginning the installation compare the packing list with the contents of the wheel kit Table 3 1 Wheel Kit Packing List
63. 2 8 MP 1 al 32769 5 022 Slave 5 0 PDHC 0 0 256 3 014 6 0 SFW O 0 320 21 001 7 0 PDHC 1 3 257 3 014 8 0 SFW 1 1 321 22 002 3 9 0 PDHC 2 0 258 3 014 3 10 0 SFW 2 0 322 22 002 3 11 0 PDHC 3 1 259 3 014 3 12 0 SFW 3 1 323 22 002 Enter the Entities to be upgraded Ex 3 4 10 6 Enter your user name anonymousEnter your user password Enter the ip address where the firmware can be found 192 1 1 1 Enter the path where the firmware can be found dist versionX X Enter the filename of the System Firmware image pin bin X X fh Are you sure that you want to continue Y N y Firmware Updating System Firmware Firmware updating progress is reported NOTE 1 Cabinet id 8 is assigned to the SEU NOTE 2 These entities might be different depending on your server NOTE 3 X X X is the version number corresponding to the version of the System Firmware on the other cells Ensure the entity selected was updated successfully A successful update returns the following message Firmware Update has completed successfully for all entities Removing and Replacing a Cell Board 137 MP CM An unsuccessful update results in an error message If the FTP connection was successful but the update failed a warning is noted for the entity being updated For example Firmware Update failed for entity SFW 0 DO NOT REBOOT SFW 0 until it has been successfully updated Firmware Update completed with errors
64. 4 4 4 4 gt H 0 ix i ei i d 4 4 4 4 toss 4 4 MP CM gt There is an asterisk in the column marked MP Verify that there is an asterisk for each of the cells installed in the cabinet by comparing what is in the Cells column with the cells physically located inside the cabinet Figure 4 13 shows that cells are installed in slots 0 and 1 In the cabinet cells should be physically located in slots 0 and 1 System Console Selection Each operating system requires that the correct console type be selected from the firmware selection menu The following section describes how to determine the correct console device If an operating system is being installed or the system configuration is being changed you must check the system console setting to ensure it matches the hardware and OS Not checking the console selection can result in the system using an unexpected device as a console which can appear as a system hang when booting To select a system console follow these steps 1 Determine the console you want to use Depending on your operating system and your hardware you can select one of several possible devices as your system console The possibilities are as follows e System Serial Port e MP Serial Port e VGA device System Console Selection 67 2 Usethe EFI menus and
65. 95 Obhier PRUS enee UR Dm 95 Safety and Environmental Considerations uie eee Con Lr e PU e po CR S bete pueU t eee pe Ios 96 Communications Interference seati a En eene a kn i reise see esse iier sese see essaie a 96 Electrostatic DISCDare e eie recs atenta rtt terreri ud matos tal iine iate dei 96 Shutting Down nPartitions and Powering Off Hardware Components sse 96 Shutung Down an nPartitions sie ee Date ete Deu ov iu nates ton i odes e Du ea Nee a oe be ORA Oe RU Deka 97 Powering Off Hardware Components iise wor hiv derquesg savy tees ere ta eer sin Rep Ree Nerea HN REA REPE reer daaieeds 97 Powermne Om the System erunt arrai assed ester ate b Su doas o er tit verc c at rria cesta 98 Removing and Replacing the Front Bezel esee ret rine ntt ais adt nete nn eb 99 Removing the Front Bezel eee ee daa aie Casha De A eec os veil ve RE PR e d ERR eb ean 99 Replacing the Er nt Bezels oinnes n diro o dorusttbdi alee qu itondS bo d Uo MIN AME 99 Removing and Replacing the Top Covers e aerep pt esr tecto gh e Da pi SERRE er ERE Esar 99 Removing the Top Cover iib nte ut a nba t ique ob p E eM teu rius 100 Replacing the Top Cover oues ui edet Mee ute Rd va d p Re FERE eg ERU RABS ry wend HERI ved es oe oo RO eed 101 Removing and Replacing a Side COVErc ies op Dele aped rie LFU pepe teria rur 101 RemowDg dide COVER s recep e aaee ton eue a qas can Des bp tpe ces totus Cau ev ub d bou ipea 101 Rep
66. A6869A Obsidian USB VGA PCI card 1 A6869B Obsidian USB VGA PCI card 1 1 For Windows each 337972 B21 external port supports a maximum of two 2 MSA 50s attached in series PCI X Card Cage Assembly I O Cards 47 48 Table 3 5 HP Integrity rx7620 Server Linux Supported I O Cards Part Number Card Description Number of Cards Supported A7173A PCI X Dual Channel Ultra320 SCSI 8 A7059A PCI Windows and Linux Ultra160 SCSI 8 A7060A PCI Windows and Linux 2 channel Ultra160 SCSI 5 A9890A PCI X SmartArray 6402 128 MB 8 337972 B21 PCI X Smart Array P600 serial attached SCSI SAS 8 controller A6826A PCI X 2 channel 2 Gb s Fibre Channel 8 A7538A PCI X 1 port 2 Gb Fibre Channel 15 A7061A PCI 1 port 1000Base T 8 A7073A PCI 1 port 1000Base SX 8 A5506B PCI 4 port 100Base TX 2 A9899A PCI 2 port 1000Base SX 8 A9900A PCI 2 port 1000Base T 8 AD144A PCI 1 port 10 GbE SR 133 Mhz 2 AD145A PCI 4 port 1000Base T 4 1 Not supported with AD145A 10 GbE adapter Table 3 6 HP Integrity rx7620 Server OpenVMS Supported I O Cards Part Number Card Description Number of Cards Supported B Bootable A6826A PCI X 2 channel 2 Gb s Fibre Channel 8B A7173A PCI 2 channel Ultra320 SCSI Adapter 2B AB378A PCI 1 port 4 Gb Fibre Channel 8B AB379A PCI2 port 4 Gb Fibre Channel 8B AB545A PCI X 4 port 1000Base T Gigabit Adapter 3 A6847A PCI 1 port 1000Base SX 8
67. AC wave To determine rms value three mathematical operations are carried out on the function representing the AC waveform 1 The square of the waveform function usually a sine wave is determined 2 The function resulting from step 1 is averaged over time 3 The square root of the function resulting from step 2 is found Represents the maximum wattage of a given configuration assuming worst case conditions thermal tolerances workloads and so forth on all system components It is extremely unlikely that any customer will experience this level of power consumption The unit of measure used in air conditioning to describe the heating or cooling capacity of a system One ton of heat represents the amount of heat needed to melt one ton 2000 Ibs of ice in one hour 12 000 Btu hr equals one ton of heat In an AC circuit true power is the actual power consumed It is distinguished from apparent power by eliminating the reactive power component that may be present The operating current of the product measured using a typical load and target voltage Represents the expected power consumption of a given configuration The typical value is the approximate power consumption that a customer will most likely experience and can use for power budgeting purposes A vapor seal is an essential part of preventing moisture infiltration into or migration out of a critical space such as a data processing center or other room that contains sensitiv
68. AN parameters for the Subnet mask and Gateway address fields This information must come from the customer 9 The system indicates the parameters have been updated and returns to the MP Command Menu prompt MP CM gt 10 To check the LAN parameters and status enter the 1s command at the MP Command Menu prompt MP CM gt 11 A screen similar to the following displays enabling verification of the settings 64 Cable Connections Figure 4 10 1s Command Screen MP CM LS Current configuration of MP LAN interface MAC address 00 30 66e 05 09 24 IP address 15 99 83 215 Ox0f6353d7 Hostname 2 quartz s Subnet mask 255 255 255 0 OxffffffO0 Gateway 15 99 83 254 Ox0f6353fe Status UP and RUNNING AutoNeqotiate Enabled Data Rate 100 Mb s Duplex Half Error Count 0 Last Error none CM 12 Toreturn to the MP main menu enter ma 13 To exit the MP enter x at the MP main menu Accessing the MP Using a Web Browser 7 Web browser access is an embedded feature of the MP The web browser enables access to the server through the LAN port on the core I O card MP configuration must be done from an ASCII console NOTE The MP has a separate LAN port from the system LAN port It requires a separate LAN drop IP address and networking information from that of the port used by HP UX Before starting this procedure the following information is required e IP address for the MP LAN e Subnet mask e
69. B this exits the nPartition console and returns to the service processor Main Menu To exit the service processor enter X at the Main Menu Booting HP UX 207 Procedure D 2 HP UX Booting EFI Shell From the EFI Shell environment to boot HP UX on a device first access the EFI System Partition for example fs0 for the root device and then enter HPUX to invoke the loader For required configuration details see ACPI Configuration for HP UX Must Be default page 207 1 Access the EFI Shell environment for the nPartition on which you want to boot HP UX Login to the service processor MP or GSP and enter CO to access the Console list Select the nPartition console When accessing the console confirm that you are at the EFI Boot Manager menu the main EFI menu If at another EFI menu select the Exit option from the sub menus until you return to the screen with the EFI Boot Manager heading From the EFI Boot Manager menu select the EFI Shell menu option to access the EFI Shell environment 2 Atthe EFI Shell environment issue the acpiconfig command to list the current ACPI configuration for the local nPartition On nPartition capable HP Integrity servers to boot the HP UX operating system an nPartition must have its ACPI configuration value set to default If the acpiconfig value is not set to de ault HP UX cannot boot In this situation you must reconfigure acpiconfig or booting is interrupted with a panic when launc
70. B548A Processor Stepping Information we IMPORTANT Intel updated A2 stepping of the Itanium 2 AB439A and AB548A processors Intel is no longer providing A1 stepping processors HP and its customers will have to gradually transition to A2 stepping processors For approximately two years June 2005 June 2007 A1 stepping processors were replaced with AT stepping processors and A2 stepping processors were replaced with A2 stepping processors Once A1 processor exchange parts are no longer available the parts must be replaced with A2 processors and the system firmware updated if necessary How to Identify an A1 Stepping processor from an A2 Stepping processor Table 6 5 Processor Stepping Comparisons FRU Exchange P N Description Stepping Number FRU ID P N 46913 69009 1 5GHz 4MB Al AB439 04001 A6913 69011 1 6GHz 6MB Al AB548 04001 46913 69014 1 5GHz 4MB A2 AB439 04004 A6913 69015 1 6GHz 6MB A2 AB548 04004 Mixing Al and A2 Stepping Processors A1 and A2 processors may be mixed on the same cell board with A2 compatible firmware Cell boards with A1 processors may be mixed with cell boards with A2 processors within the same partition CAUTION Minimum Firmware Version must be 3 3 with A2 processor cell board s or the system does not boot If the logical firmware download order is not followed unpredictable results can also occur Related Information e Onthe WTEC server see the WTEC newsletter of Curren
71. CI X 1 port 4 GB Fibre Channel 15B A6794AX Procurium GigE LAN SCSI combo card 2B A6828A PCI 1 channel Ultra 160 SCSI 15B A6829A PCI 1 channel Ultra160 SCSI 15B A7173A Dual Channel Ultra320 SCSI Adapter 15B A5149A PCI 1 port Ultra2 SCSI 15 A5150A PCI 2 port Ultra2 SCSI 15 A6826A PCI X 2 channel 2 Gb s Fibre Channel 15B A9890A PCI X 2 channel Smart Array 6402 8B A9891A PCI X 4 channel Smart Array 6404 256 MB 8B AB287A PCI X 1 port 10 Gb Ethernet Fiber Adapter 2 AB545A PCI X 4 port 1000Base T Gigabit Adapter 15 A6847 A PCI 1 port1000Base SX 15B A6825A PCI 1port1000Base T 15B A4926A PCI 1 port 1000Base SX 15 A5230A PCI 1 port10 100Base T 15 A4929A PCI 1 port1000Base T 15 A5506B PCI 4 port 10 100Base T 15 A5783A PCI 1 port 802 5 Token Ring 4 16 100 15 A6869A Obsidian USB VGA PCI card 1 A6869B Obsidian USB VGA PCI card 1 A7011A PCI X 2 port 1000Base SX 8 A7012A PCI X 2 port 1000Base T 8 AB286A PCI X 2 port 4X Fabric HCA HPC 2 AB286C PCI X 2 port 4X Fabric HCA HPC 8 A3739B PCI 1 port Universal FDDI 15 AB345A PCI X 2 port 4X Fabric HA and DB Adapter 15 AB286C PCI X 2 port 4X Fabric HCA HPC 8 A3739B PCI 1 port Universal FDDI 15 AB345A PCI X 2 port 4X Fabric HA and DB Adapter 15 AB286C PCI X 2 port 4X Fabric HPC Adapter 8 AB379A PCI 2 port 4 Gb Fibre Channel 8B A5838A PCI 2 port 100Base T 2 port Ultra2 SCSI 15B A9782A PCI X 2 Gb Fibre Channel 1000Base SX 15B A9784A PCI X 2 Gb Fibre Channel 1000Base T 15B 46 Installing Additional Co
72. Gateway address e Host name this is used when messages are logged or printed To configure the LAN port for a web browser follow these steps 1 Connectto the MP using a serial connection 2 Configure the MP LAN See Configuring LAN Information for the MP 3 To enter the Command Menu enter CM 4 To display and set MP remote access enter SA at the MP CM gt prompt MP Core I O Connections 65 Figure 4 11 Example sa Command MP CM sa This command displays and allows modification of access parameters T Telnet access Enabled M Modem access Enabled V Web Console Enabled SSL NOT active N Network Diagnostics Disabled I IPMI Lan access Disabled Select access mode to change w The following options are available for Web access 1 Web access disabled 2 Web access enabled 3 Secure web access enabled Select option 5 Launch a web browser on the same subnet using the IP address for the MP LAN port Figure 4 12 Browser Window oix Fie Edt View Favorkes Took Help Ea Back gt OA GE Asearch Favorites CHristory B 2 w asa Address http st05a fc hp com hpterm html s Go Links Zoom In Out Title Bar Line Modify Block Remote FERE Terninsl Memory Display Auto Modify All Mode Mode Test Lock Functns LF Done ap Internet 6 Click anywhere on the Zoom In Out title bar to generate a full screen MP window 7 Select the emu
73. HP Integrity rx 620 Server User Service Guide HP Part Number A7027 96036 ed6 Published October 2009 Edition 6 if Copyright 2003 2009 HP Development Company L P Legal Notices 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 Printed in U S A Intel Pentium Intel Inside Itanium and the Intel Inside logo are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries Linux is a U S registered trademark of Linus Torvalds Microsoft and Windows are U S registered trademarks of Microsoft Corporation Warranty To obtain a copy of the warranty for this product see the warranty information website BCS Global Limited Warranty and Technical Support Table of Contents About This D OGUPebile eet mtsent edetutcass eto eine tonache so dU AUN eres Ede ded eins a sei aret oen teu Sd 13 Intended A dience eere et eet ie ue eee ee iet 13 New and Changed Information in This EdIUONL eoe reet tto pet re oye etr ER Popes tE 13 Pu blishing EHSEDEV eisein a t esatta rote nte reum itid NA Et aet MdL HS QU dE 13 Document OrgatuzaliOH sebo petente en
74. HP UX on the nPartition before performing the card replacement or addition See Shutting Down nPartitions and Powering Off Hardware Components page 96 Removing a PCI PCI X Card To remove the PCI PCI X card follow these steps 1 RunSAM usr sbin sam and from the main SAM Areas screen select the Peripheral Devices area then select the Cards area 2 From the I O Cards screen select the card you will replace and then select the Actions gt Replace menu item 3 Wait for SAM to complete its critical resource analysis for the selected card and then review the analysis results If no critical resources are disabled by taking the selected card offline click OK to suspend the card s driver and power off the card s PCI X slot Proceed with the next step Removing and Replacing a PCI PCI X Card 119 0 99 7 NOn If SAM detected that the selected PCI PCI X card cannot be taken offline you will not be able to click OK and you cannot replace the card while HP UX remains running In this case you must shut down HP UX on the nPartition before replacing the defective card Locate the PCI X slot where the selected card resides On the server you can view the PCI X slots and slot LEDs from the rear of the cabinet The selected slot powers off its green power LED is off and the slot amber attention indicator a dark orange yellow LED blinks Label and remove the cables connected to the PCI PCI X card to be removed Remove the top
75. HP recommends that you register your product at the Subscriber s Choice for Business website http www hp com country us en contact_us html Documentation Feedback HP welcomes your feedback To make comments and suggestions about product documentation send a message to docsfeedback hp com Include the document title and manufacturing part number All submissions become the property of HP Contacting HP 15 16 1 Introduction The HP Integrity rx7620 Server is a member of the HP business critical computing platform family a mid range mid volume server positioned as an upgrade to the HP 9000 rp7410 product in the IA 64 product line The HP Integrity rx7620 Server shares the same hardware as the HP 9000 rp7410 with changes to the cell board CPU modules core I O and the PCI X backplane The HP Integrity rx7620 Server provides increased performance over its predecessor Overview The HP Integrity rx7620 Server is a 10U 8 socket symmetric multi processing rack mount server that accommodates up to 64 GB of memory PCI X I O and internal peripherals including disks and DVD tape Its high availability features include N 1 hot pluggable fans and power redundant power cords and hot pluggable PCI X cards and internal disks It currently accommodates up to 8 IA 64 processor modules with a maximum of four processor modules per cell board and a maximum of two cell boards Figure 1 1 HP Integrity rx7620 Server left front view
76. I O failure or replacement the MP adjusts the fan speeds for sea level operation NOTE Fans driven to a high RPM in dense air cannot maintain expected RPM and are considered bad by the MP leading to a False Fan Failure condition Power Control If active the manageability firmware is responsible for monitoring the power switch on the front panel Setting this switch to the ON position is a signal to the MP to turn on 48 V DC power to the server The PE command can also be used to send this signal This signal does not always generate a transition to the powered state The following conditions prevent the manageability firmware from applying 48 V DC power to the server Insufficient number of active bulk power supplies e Insufficient number of I O fans Insufficient number of main fans e Ambient temperature is in an OVERTEMP HIGH condition Unless one of the following conditions occurs 48 V DC power to the server is maintained e A main fan failure causes there to be an insufficient number of main fans e AI O fan failure causes there to be an insufficient number of I O fans e Ambient temperature reaches an OVERTEMP HIGH condition e The front panel power switch is turned OFF e The PE command is issued to the manageability firmware to turn off power to the server cabinet Management Processor Commands 88 Table 5 11 lists the server MP commands Table 5 11 MP Commands Com
77. Ib 8 2 kg DVD 2 2 Ib 1 0 kg Disk Drive 1 6 Ib 0 73 kg Chassis with skins and front bezel cover 131 Ib 59 42 kg Total weight 180 System Specifications C General Site Preparation Guidelines Electrical Factors A NOTE Electrical practices and suggestions in this guide are based on North American practices For regions and areas outside North America local electrical codes will take precedence over North American electrical codes An example would be the recommendation that the PE Protective Earthing conductor be green with yellow stripes This requirement is a North American directive and does not override the local code requirements for a region or area outside North America Local Authority Has Jurisdiction LAHJ and should make the final decision regarding adherence to region specific or area specific electrical codes and guidelines The LAHJ acronym is used throughout this section Proper design and installation of a power distribution system for the server requires specialized skills Those responsible for this task must have a thorough knowledge and understanding of appropriate electrical codes and the limitations of the power systems for computer and data processing equipment In general a well designed power distribution system exceeds the requirements of most electrical codes A good design when coupled with proper installation practices produces the most trouble free operation A detaile
78. Manapement DelaYlOE ee erotico Uer epe ARCH e IR Doses panne D TERRAE 87 Therm l Monitoring se swe nti eve erste n tue net Reha n E rut dd Savas e End RENE on ae 87 Ban cConttoloe coat ae ct ED LAE AU S UON 87 Powet Control 4ue eic eee eiie ee eerta eec te be veiberede visi ee 88 Management Processor C ODmmiaids uu esutus aienea ese VE cud RR iru Dip po etai ur ei r Ee 88 Updating dani cic Em 90 TASEPUCH ONS 3s coe ei eret i eee ebe encode nt eere osse t eto ebatees ee eedediseedobe nive ebenso ceti deudedi seme be rive ado vedo 90 Possible Error M SSapeS ico rte e o Oe ee DOS trt D n Eri Cb olo t I iP vida quu 90 4 Table of Contents Firmware Update Tool for TPE noeh r eE ena dean teg o eo DR mu de Manes ER IN aD AERE 90 Installing and Uninstalling on PAP B rk etre pa EE t rre UR dea eee vias ite p REM nerconen denies 90 Installing the Firmware Update Tool on FIPSUX ss iia ipusnte esa ceptus t e ott egeta nbn tope eto ete 90 Uninstalling the Firmware Update Tool on HP UX aedis pr rr tne chere vp rn enis 91 liaticiditerqe riis ioo MM 91 Installing on Windows bees 92 6 Removing and Replacing Components sees 95 HP Integrity rx7620 Server Field Replaceable Units ERU oe adeo prat eei ete oret en seeds 95 OR Re sable PRIUS etate nents tat a d metu uten qu eel Qi DE di 95 Hot Swappable A IIS Asus puto e Or cei ba eee up rate ipae qe I e e M HAE
79. O CUSTOMERS dk KKKKK KKKKK This program is intended for use by trained HP support kde personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This dee program is the property of HP KRR k KKKKK KKKKK kk k k k Version 1 04 k k k k KKKKK KKKKK kkkkkkxkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkkkkkkkkxkxk Removing and Replacing a Cell Board 139 Flash Current Number Cabinet Name Partition Handle Firmware Version Comments 1 0 PDHC 0A 0 256 A 003 023 Current 2 0 PDHC OB 0 264 A 003 023 Old 3 0 SFW OA 0 320 21 003 Pri PA 4 0 SFW OB 0 328 21 003 Sec PA 5 0 PDHC 1A 0 257 A 003 034 Current 6 0 PDHC 1B 0 265 A 003 034 Old 7 0 SFW 1A 0 321 22 002 Pri PA 8 0 SFW 1B 0 329 22 002 Sec PA Note You can only duplicate one firmware type at a time Enter the Entities to be updated EX 7 8 1 Enter the source entity for the PDHC firmware image 5 Are you sure that you want to continue Y N y Updating device PDHC OA Erasing Flash es This may take several minutes DFW has completed successfully for all entities Once DFW has completed verify the following message is returned DFW has completed successfully for all entities A CAUTION DO NOT RESET or AC POWER CYCLE the server unless you have received confirmation that DFW has completed successfully Repeat the DFW command immediately if the firmware failed to complete successfully
80. PDH Riser 1 5GHz Mad9M A1 46913 67009 46913 69009 Assembly Cell PDH Riser 1 6GHz Mad9M A1 46913 67011 46913 69011 Assembly Cell PDH Riser 1 5GHz Mad9M A2 46913 67009 46913 69014 Assembly Cell PDH Riser 1 6GHz Mad9M A2 46913 67011 46913 69015 Assembly PCI X Card Cage 46093 67013 Assembly Cover Left Side 49903 04007 None Assembly Cover Right Side 49903 04006 None Assembly Cover Top 49903 04008 None Assembly Front Bezel A7025 04001 None Assembly Front Panel Plastic A7025 04002 None Assembly Interlock Device 5065 5959 None Assembly Lift handle left panel A6752 04045 None Assembly Lift handle right panel A6752 04048 None Assembly PCI OLR A6093 67014 None Assembly PCI OLR Paddle MRL A6093 40041 None Assembly PCI Separator W Light Pipe 5065 7443 None Assembly Slide rail left A6752 04058 None Assembly Slide rail right A6752 04059 None Assembly Smart Fan Front Rear 4 A6752 67029 None 171 Table A 1 HP Integrity rx7620 Server Field Replaceable Unit FRU List continued FRU Description Replacement Part Number Exchange Part Number Assembly Smart Fan PCI C C 6 46752 67030 None Assembly Front Bezel No NamePlate 47025 04001 Ballast J1479 1 per system J1479 60001 None Box DVD Filler A6912 00014
81. S NOT LICENSED TO CUSTOMERS OR kk KKKKK KKKKK This program is intended for use by trained HP support kk dex personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This doe program is the property of HP FERRER KKKKK KKKKK FARRE Version 1 03 ERRA KKKKK KKKKK kkkkkxkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk Flash Current Number Cabinet Name Partition Handle FPGA Version 0 CIO 0 0 2048 2 008 2 0 Cros 1 T 2049 2 008 3 0 GP 0 2184 1 002 4 0 F 0 2192 1 002 5 0 OSP 0 2232 1 002 6 0 Pci HS 0 2328 1 000 F 0 PciXLP 0 2352 2 000 2 8 1 8 CIO O 0 34816 2 008 2 9 1 8 CIO 1 JL 34817 2 008 2 10 1 8 GP 0 34952 002 2 11 1 8 F 0 34960 002 2 12 1 8 OSP 0 35000 1 002 2 13 1 8 Pci HS 0 35096 000 2 14 1 8 PciXLP 0 35120 2 000 15 0 PDHC 0 0 2472 1 007 16 0 CLPM 0 0 2480 002 17 0 PDHC 1 aE 2473 007 18 0 CLPM 1 ab 2481 1 002 2 19 0 PDHC 2 0 2474 007 2 20 0 CLPM 2 0 2482 002 2 21 0 PDHC 3 ae 2475 1 007 2 22 0 CLPM 3 1 2483 002 Enter the Entities to be upgraded Ex 2 4 7 15 Enter your user name anonymousEnter your user password x Enter the ip address where the FPGA image file can be found 192 1 1 1 Enter the path where the file s can be found dist versionX X Enter PDHC FPGA image filename pdhc X X X osp Refer to Note 3 in this step Are you sure that you want
82. SED TO CUSTOMERS wR KK KKKKK KkKKKK This program is intended for use by trained HP support do ke personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This Hk RRR program is the property of HP ek koe KKKKK KkKKKK kkk k k Version 1 04 kk kk k KKKKK KkKKKK kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkkkk kkkkkkxk Flash Current Number Cabinet Name Partition Handle Firmware Version Comments 1 0 PDHC 0A 0 256 A 003 023 Current 2 0 PDHC OB 0 264 A 003 023 Old 3 0 SFW OA 0 320 22 002 Pri PA 4 0 SFW OB 0 328 22 002 Sec PA 5 0 PDHC 1A 0 257 A 003 034 Current 6 0 PDHC 1B 0 265 A 003 034 Old 7 0 SFW 1A 0 321 21 001 Pri PA 8 0 SFW 1B 0 329 21 001 Sec PA Note You can only duplicate one firmware type at a time Enter the Entities to be updated EX 7 8 3 Enter the source entity for the System firmware image 7 Are you sure that you want to continue Y N y Updating device SFW 0A Erasing Flash es This may take several minutes DFW has completed successfully for all entities Once DFW has completed verify the following message is returned DFW has completed successfully for all entities CAUTION DO NOT RESET or AC POWER CYCLE the cell or server unless you have received confirmation that DFW has completed successfully Repeat the DFW command immediately if the firmware failed to complete successfully Example To downgrade
83. TE Ifthe Command Menu is not shown enter q to return to the MP Main Menu then enter cm Enter 1c and press Return The following screen displays MP Core I O Connections 63 Figure 4 9 1c Command Screen MP CM LC This command modifies the LAN parameters Current configuration of MP LAN interface MAC address 00 30 66e 05 09 24 IP address 15 99 83 215 0x0 f6353d7 Hostname 2 quartz s Subnet mask 255 255 255 0 OxffffffOO0 Gateway 15 99 83 254 0x0 6353 fe Status UP and RUNNING 4utoNegotiate Enabled Data Rate 100 Mb s Duplex Half Error Comt 0 Last Error gt none Do you want to modify the configuration for the customer LAN Y N q MP CM ET NOTE The value in the IP address field is set at the factory Obtain the actual LAN IP address from the customer 3 At the prompt Do you want to modify the configuration for the customer LAN enter y The current IP address is shown and the following prompt displays Do you want to modify it Y N 4 Enter y 5 Enter the new IP address The customer must provide this address for network interface 0 6 Confirm the new address 7 Enter the MP Network name This is the host name for the customer LAN The name can be as many as 64 characters in length and include alphanumeric characters dash _ under bar period or a space HP recommends that the name be a derivative of the complex name For example Acme com MP 8 Enter the L
84. TION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 11 Front Smart Fan Assembly Locations LED Fan 1 Fan 0 LED 106 Removing and Replacing Components Table 6 1 Front Smart Fan Assembly LED Indications LED State Description On Green Fan is at speed and in sync or not at speed less than six seconds Flashing Fan is not keeping up with speed sync pulse for greater than six seconds Yellow Flashing Red Fan failed stalled or has run slow or fast for greater than six seconds Off Fan is not installed or no power is applied to fan Removing a Front Smart Fan Assembly Figure 6 12 Front Fan Detail To remove a front smart fan assembly follow these steps 1 Remove the front bezel 2 Push the Fan Release Pin away from the fan 3 Slide the fan away from the connector 4 Pull the fan away from the chassis Replacing a Front Smart Fan Assembly To replace a front smart fan assembly follow these steps 1 Position the fan assembly on the chassis fan guide pins 2 Slide the fan into the connector 3 Verify that the fan release pin is in the locked position 4 Replace the front bezel Removing and Replacing a Front Smart Fan Assembly 107 ET NOTE A green fan LED indicates the fan is operational Removing and Replacing a Rear Smart Fan Assembly The rear smart fan assem
85. To boot Red Hat Linux from the EFI Shell follow these steps For required configuration details see ACPI Configuration for Red Hat Linux 3 Must Be single pci domain page 212 1 Access the EFI Shell From the system console select the EFI Shell entry from the EFI Boot Manager menu to access the shell 2 Access the EFI System Partition for the Red Hat Linux boot device Use the map EFI Shell command to list the filesystems s0 s1 and so on that are known and have been mapped 212 Operating System Boot and Shutdown To select a filesystem to use enter its mapped name followed by a colon For example to operate with the boot device that is mapped as fs3 enter s3 at the EFI Shell prompt 3 Enter ELILO at the EFI Shell command prompt to launch the ELILO EFI loader If needed you can specify the loader s full path by entering EFI redhat elilo at the EFI Shell command prompt 4 Allow the ELILO EFT loader to proceed with booting the Red Hat Linux kernel By default the ELILO EFI loader boots the kernel image and options specified by the default item in the elilo conf file To interact with the ELILO EFI loader interrupt the boot process for example enter a space at the ELILO boot prompt To exit the loader use the exit command Booting the SuSE Linux Enterprise Server Operating System You can boot the SuSE Linux Enterprise Server 9 operating system on HP Integrity servers using either of the me
86. To exit the loader the HPUX gt prompt enter exit This brings you back to the EFI Shell To boot the HP UX operating system do not enter anything during the ten second period given for stopping at the HPUX EFI loader Shell map Device mapping table fs0 E Acpi 000222F0 269 Pci 0 0 Scsi Pun8 Lun0 HD Part1 8ig72550000 blkO Acpi 000222F0 269 Pci 0 0 Scsi Pun8 Lun0 bilki Acpi 000222F0 269 Pci 0 0 Scsi Pun8 Lun0 HD Part1 Sig72550000 blk2 Acpi 000222F0 269 Pci 0 0 Scsi Pun8 Lun0 HD Part2 Sig72550000 blk3 Acpi 000222F0 2A8 Pci 0 0 Scsi Pun8 Lun0 blk4 Acpi 000222F0 2A8 Pci 0 1 Scsi Pun2 Lun0 Shell fs0 fs0 gt hpux 208 Operating System Boot and Shutdown c Copyright 1990 2002 Hewlett Packard Company All rights reserved HP UX Boot Loader for IA64 Revision 1 723 Press Any Key to interrupt Autoboot efi hpux AUTO gt boot vmunix Seconds left till autoboot 9 Exit the console and service processor interfaces when finished using them To exit the EFI environment enter B Control B This exits the nPartition console and returns to the service processor Main Menu To exit the service processor enter X at the Main Menu Single User Mode HP UX Booting You can boot HP UX in single user mode by using the following procedure Procedure D 3 Single User Mode HP UX Booting EFI Shell From the EFI Shell environment boot in single user mode by stopping the boot proc
87. URES The procedures outlined in this document in order IN PROCESS The portion of the checklist that enables you to comment on the current status of a procedure COMPLETED The final check to ensure that a step has been completed and comments Major tasks are in bold type sub tasks are indented Table 4 2 Factory Integrated Installation Checklist PROCEDURE IN PROCESS COMPLETED Initials Comments Initials Comments Obtain LAN information Verify site preparation Cable Connections Table 4 2 Factory Integrated Installation Checklist continued PROCEDURE IN PROCESS COMPLETED Site grounding verified Power requirements verified Check inventory Inspect shipping containers for damage Unpack SPU cabinet Allow proper clearance Cut polystrap bands Remove cardboard top cap Remove corrugated wrap from the pallet Remove four bolts holding down the ramps and remove the ramps Remove antistatic bag Check for damage exterior and interior Position ramps Roll cabinet off ramp Unpack the peripheral cabinet if ordered Unpack other equipment Remove and dispose of packaging material Move cabinet s and equipment to computer room Move cabinets into final position Position cabinets next to each other approximately 1 2 inch Adjust leveling feet Install anti tip plates Inspect cables for proper
88. Verifying that the components are present and installed correctly e Setting LAN IP addresses e Shutting down cell board power Communication with the MP is established by connecting the CE Tool to the local RS 232 port on the MP core I O card Setting CE Tool Parameters e 8 none parity e 9600 baud e na Receive e na Transmit After powering on the CE Tool ensure the communications settings are as follows If the CE Tool is a laptop using Reflection ensure communications settings are in place To ensure communications settings are in place follow these steps MP Core I O Connections 61 From the Reflection main screen select Connection and select Connection Setup Select Serial Port Select Com1 Check the settings and change if required Go to More Settings to set Xon Xoff Click OK to close the More Settings window BONS Click OK to close the Connection Setup window Pull down the Setup menu and select Terminal under the Emulation tab Select any terminal type Click Apply This option is not highlighted if the terminal type you want is already selected 9 Click OK 9 m Sy gE Connecting the CE Tool to the Local RS 232 Port On the MP This connection enables direct communications with the MP Only one window can be created on the CE Tool to monitor the MP When enabled it provides direct access to the MP and any partition To connect the CE Tool to the local RS 232 port on the MP follow these steps 1 Con
89. X HP UX Booting You can boot HP UX by using any one of the following procedures e HP UX Booting EFI Boot Manager page 207 The EFI system boot environment is provided on HP Integrity servers e HP UX Booting EFI Shell page 208 The EFI system boot environment is provided on HP Integrity servers Procedure D 1 HP UX Booting EFI Boot Manager From the EFI Boot Manager menu select an item from the boot options list to boot HP UX using the selected boot option For required configuration details see ACPI Configuration for HP UX Must Be default page 207 1 Access the EFI Boot Manager menu for the nPartition on which you want to boot HP UX Login to the service processor MP or GSP and enter CO to access the Console list Select the nPartition console When accessing the console confirm that you are at the EFI Boot Manager menu the main EFI menu If at another EFI menu select Exit from the sub menus until you return to the screen with the EFI Boot Manager heading 2 At the EFI Boot Manager menu select an item from the boot options list Each item in the boot options list references a specific boot device and provides a specific set of boot options or arguments to be used when booting the device 3 To initiate booting using the selected boot option press Return or Enter 4 Exit the console and service processor interfaces when finished using them To exit the EFI environment enter B Control
90. ach disk drive 84 Troubleshooting Figure 5 10 Disk Drive LED Location i LT IET Activity L i N LED 1 at Status i LED ALI Table 5 10 Disk Drive LEDs Activity LED Status LED Flash Rate Description Off Green Steady Normal operation power applied Green Off Steady Green stays on during foreground drive self test Green Off Flutter at rate of I O disk activity activity Off Yellow Flashing at 1Hz or Predictive failure needs immediate investigation 2 Hz Off Yellow Flashing at 0 5Hz Operator inducing manually or 1Hz Off Yellow Steady Module fault critical Off Off LEDs off Unit not powered or installed Server Management Subsystem Hardware Overview Server management for the HP Integrity rx7620 Server is provided by an MP on the core I O board The server management hardware is powered by standby power that is available whenever the server is plugged into primary AC power This enables service access even if the DC power to the server is switched off The MP communicates with the server subsystems sensors and PDC by internal buses It also communicates with the operating console and session gettys by universal asynchronous receiver transmitters UARTs on the core I O PCI bus Connection to the MP is by way of three I O paths e An RS 232 port for a local terminal e An RS 232 port for a modem connection e A 10 100 1000 baseT LAN port web console When the se
91. adme text and click Next 92 Troubleshooting Figure 5 16 Information Screen InstallShield Wizard Information Please read the following text README TEXT COMPAQ Monitor Driver INF Software Compaq Monitors under Microsoft Windows 95 98 ME 2000 and XP PRODUCTS SUPPORTED IN THIS SOFTPAG Compaq 5500 S500 5510 550 S700 710 720 S900 S910 920 M720 V40 45 V50 V55 V500 V570 7500 7550 V70 V75 V700 V710 V720 9500 V90 300 V 1000 V1100 P50 P70 P75 P700 P710 P720 P300 P310 P320 P110 x La 4 neta siiee Cea The status of the installation displays in the Setup Status screen Figure 5 17 Setup Status InstallShield Wizard Setup Status System firmware update Setup is performing the requested operations Firmware Update Tool for IPF 93 94 6 Removing and Replacing Components This chapter describes how to shut down nPartitions power off the server and remove and replace hardware components in the server HP Integrity rx7620 Server Field Replaceable Units FRUs These procedures are intended for use by trained and experienced HP service personnel only Hot Pluggable FRUs A FRU is defined as hot pluggable if it can be removed from the chassis while the system remains operational but requires software intervention prior to removing the FRU The following FRUs are hot pluggable e Removing and Replacing a Disk Drive e Removing and Replacing a
92. ailure to follow ESD safety precautions can result in damage to the server Figure 6 7 Disk Drive Location Removing a Disk Drive Figure 6 8 Disk Drive Detail To remove the disk drive follow these steps Removing and Replacing a Disk Drive 103 2 Disengage the front locking latch on the disk drive by pushing the release tab to the right and the latch lever to the left Pull forward on the front locking latch and carefully slide the disk drive from the chassis Replacing a Disk Drive A NOTE Sometimes using the diskinfo and ioscan commands will produce cached data To resolve this these commands should be run when the disk drive is removed To replace the disk drive follow these steps 1 Os UI Es 92 Before installing the disk drive enter the following command diskinfo v dev rdsk cxtxdx Enter the following command ioscan f The response message after running this command is NO_HW Be sure the front locking latch is open then position the disk drive in the chassis Slide the disk drive into the chassis Use a slow firm pressure to properly seat the connection Depress the front locking latch to secure the disk drive in the chassis Spin up the disk by entering one of the following commands diskinfo v dev rdsk cxtxdx ioscan f pvcreate vgcfgrestore Removing and Replacing a CD DVD DAT Drive The CD DVD DAT is located in the front of the chassis You must remove the system power
93. al Factors 181 For example it is difficult to see cable connection points on the hardware if lighting is inadequate Adequate lighting reduces the chances of connector damage when cables are installed or removed The minimum recommended illumination level is 70 foot candles 756 lumens per square meter when the light level is measured at 30 inches 76 2 cm above the floor Working Space for Server Access The recommended working space for performing maintenance on the server is three feet The work space will permit at least a 90 degree opening of equipment doors or hinged panels When planning for the working space area consider whether access to the server will be at the front the side or the rear of the server Power Consumption When determining power requirements you must consider any peripheral equipment that will be installed during initial installation or as a later update To determine the power required to support these devices see the applicable documentation for such devices Electrical Load Requirements Circuit Breaker Sizing A NOTE LAHJ and should make the final decision regarding adherence to country specific electrical codes and guidelines It is good practice to derate power distribution systems for the following reasons e To avoid nuisance tripping from load shifts or power transients circuit protection devices should never be run above 80 of their root mean square RMS current ratings e Safety agencie
94. al equipment that will be installed during initial installation or as a later update To determine the power and air conditioning that is required to support these devices see the applicable documentation for such devices Maximum power is the sum of the worst case power consumption of every subsystem in the box and should be used to size worst case power consumption Typical power consumption numbers are what HP engineers have measured when running power intensive applications These are generally lower than maximum power numbers because it is uncommon for all of the subsystems in the box to simultaneously draw maximum power for long durations Weight To determine overall weight follow the examples in Table B 6 then complete the entries in Table B 7 Table B 6 Example Weight Summary Component Quantity Multiply By Weight Cell Boards 2 27 80 Ib 12 61 kg 55 6 Ib 25 22 kg PCI Card varies used A3739B here 4 0 34 Ib 0 153 kg 1 36 Ib 0 61 kg Power Supply BPS 2 18 0 Ib 8 2 kg 36 Ib 16 40 kg DVD 1 221b 10kg 221b 10kg Disk Drive 4 1 6 lb 0 73 kg 6 40 Ib 2 90 kg System Requirements Summary 179 Table B 6 Example Weight Summary continued Chassis with skins and front bezel cover 1 131 Ib 59 42 kg 131 Ib 59 42 kg Table B 7 Weight Summary Component Quantity Multiply By Weight kg Cell Boards 27 8 lb 12 61 kg PCI Card weight varies Power Supply BPS 18
95. alling the VRM Cover AB388 00002 and Door Opener AB388 000093 sees 144 Removing and Replacing a Central Processing DBIE eet eo toe eal i epi tech dens 146 Reinoving the D YOGGSSOE iei mieux etri nea Fest basia A AORTE vet ui nesses dens EAKAS ts eee AR uio o 146 Replacing the Processors s nuc ier IE ii ea heit evi ical eee Guo farmed e Frei deleti tad E ives 148 Installing Dual Core CPUs A97607 mpi eeresotn trem ted uester eei ru Bord o mess nage p ey uet ERR 149 Installing Intel Itanium 2 CPUs AB548A and ABASO A esti rto p Enea MER iter rn AR pP 152 AB439A and AB548A Processor Stepping Information sse 153 CPU Installation aao a a EE r gt NOEN E N E A O TAE E TNS 153 Removing and Replacing a Cell Board VRM ior eteti orte tenente ser bd ttn tnl eoe QE ROV XR EH EXP AEN In Ep Mn ide 157 Removing aC ell Board VR add ooh eto ppl cra arret etu preda ek a RN PEE MATRE 157 Replacing a Cell Board V RM nei rgo e ISP E oeeh i e Ord en ek sed ed ie 158 Removing and Replacing a DIMMEGS ore biete oa ret pe reae keep in Eun e Ep ove ER e Ve EERE PaE cR e Lea Rd 159 Removing a DIMM 2e wast aap henna r tstpi E hast od redolet no ees In td E O uei 159 Replacing a DIMM i scs riesige tox due eo deg a ho Aude EUER Ede cos phe aet a aper tuu plua 160 Removing and Replacing a Core I O Borde ri o tia Hii Dp tote ttr DARK ERR RE M LS 160 Removing a Core O Board uite tnter eea e a E CH RIS PAM get n eo Eau ARR ade bats Ded A ui
96. ance Menu From the Main Menu select Add a Boot Option Add the device as a new boot device 120 Removing and Replacing Components Updating Option ROMs The Option ROM on a PCI I O card can be flashed or updated To flash an I O card follow these steps 1 2 3 ET Install the I O card into the chassis Boot the server to the EFI shell Run the EFI search command To add a single card search cell pci slot gt To add all cards search all Run the EFI map r command NOTE Each I O card type and firmware image update may require a different flash utility and procedure Follow the instructions in the txt file included with the latest HP IPF Offline Diagnostic amp Utilities CD Load the HP IPF Offline Diagnostic amp Utilities CD The CD contains the flash utility for IO for each card type firmware images and a txt file that includes instructions and information about updating the firmware images Removing and Replacing the PCI X Card Cage Assembly A The PCI X card cage comes with the PCI X backplane located in the rear of the server All system power must be removed before attempting to remove or replace this component For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6
97. ardo tudes Io ip etos gne en meg o ope elvai Pee OE di pu OEE 203 Delivery Sutyey Part 2 toes tnter Mte net ile tuf es c DE ite 204 11 List of Tables 1 1 1 1 2 1 3 1 4 3 1 3 2 3 3 3 4 3 5 3 6 4 1 4 2 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 6 1 6 2 6 3 6 4 6 5 6 6 A 1 B 1 B 2 B 3 B 4 B 5 B 6 B 7 C 2 C 3 C 4 C 5 C 6 12 Publishing F stop Detalle cedit alpes ais lal a que eea ia a Dot duas RE dads 13 PCI X Slot Types secte inte ce horde rre stv cnc REP cn e eT ergo ev so tudes wan doh eee Nera ERR EE a 20 Cell Board CPU Load Ofrder esee eene he enne nenne nhe esse rre esi aat AETA E 23 FIP Integrity 1x7620 Server DIMMS siirrot eru EEG dO SEO Hte digest iguingiay maaan ited 24 DIMM LORIAN AEE eeta e ete tele stassagscdes tre eet beer venuste oo pp tea Spe eit r tuae ioo cere eae 25 Wheel Eit Packing BIS semaine et ied Et pode tae bea eh Lt Mite aia Eek cack 41 Caster Part Nurbetss 5 ee ete ecehocctiedeadettleeoss be eede cthcehocs ee a a aaa an a 44 HP Integrity rx7620 Server HP UX Supported I O Cards dieto t beers 45 HP Integrity rx7620 Server Windows I O Cards eese eene nennen 47 HP Integrity rx7620 Server Linux Supported I O Cards uei mere apr pb o uev 48 HP Integrity rx7620 Server OpenVMS Supported I O Cards sees 48 single Phase Voltise Examples ode ocu tpud vate uice tul bed tec tates 58 Factory Inteprated I
98. ards The front fans are run off of standby power and run any time AC input power is supplied to the server All of the fans turn on when 48 V power is supplied to the system As shown in Figure 5 11 the fan behavior is related to the temperature state The fans are set to high speed when the ambient temperature is anywhere above the normal operating range The front and rear fans are set to high speed any time a chassis intrusion switch is triggered when removing a side cover Altimeter Circuit The PCI X backplane contains an altimeter circuit This circuit is used to adjust the chassis fan speeds for the operating altitude at power on and during MP initialization The chassis fans consist of the two front fans two rear fans and the six PCI X I O assembly fans If an altimeter failure is detected the information is logged as an Event ID then propagated to the OS level to be picked up by monitoring diagnostics The altimeter circuit is checked at power on by the MP If an expected value is returned from the altimeter circuit the altimeter is determined good The altimeter reading is then set in non volatile random access memory NVRAM on board the core I O card If the value is ever lost like for a core I O replacement the NVRAM is updated at the next boot provided the altimeter Server Management Behavior 87 335 M is functioning normally If the altimeter has failed and the stable storage value has been lost because of a core
99. as a high speed point to point data bus The PCI X backplane is the primary I O interface for the HP Integrity rx7620 Server systems It provides sixteen 64 bit hot plug PCI PCI X slots Fourteen of the slots have dual ropes connected to the LBA chips The remaining two slots have a single rope connected to each LBA chip Each of the sixteen slots are capable of 66MHz 33MHz PCI or 133MHz 66MHz PCI X All sixteen PCI slots are keyed for 3 3 volt connectors accepting both Universal and 3 3 V cards The PCI X backplane does not provide any 5 volt slots for the I O cards For more details see Table 1 1 The PCI X backplane is physically one board but behaves like two independent partitions SBA 0 and its associated LBAs and eight PCI X slots form one I 0 partition SBA 1 and its associated LBAs and eight PCI X slots form the other I 0 partition One I O partition can be powered down separately from the other I O partition Table 1 1 PCI X Slot Types 1 O Partition Slot Device 0 8 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 0 7 PCI 33 or 66 MHz PCI X 66 or 133 MHZ 64 bit 3 3V connector Hot Plug Slot 0 6 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 0 5 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 0 4 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot Introduct
100. at specific locations For best performance HP recommends loading sets of eight DIMMs Table 1 3 HP Integrity rx7620 Server DIMMs DIMM Size Total Capacity Memory Component Density 256 MB 8 GB 64 megabit 512 MB 16 GB 128 megabit 1 GB 32 GB 256 megabit 2 GB 64 GB 512 megabit 4 GB 128 GB 1024 megabit Main Memory Performance Latency to main memory is an important parameter in determining overall system performance With memory buses running at 125 MHz the latency for a page hit is 8 5 cycles 68 ns the latency for a page closed is 11 5 cycles 92 ns and the latency for a page miss is 14 5 cycles 116 ns Valid Memory Configurations The HP Integrity rx7620 Server is capable of supporting as little as 0 5 GB of main memory using two 256 MB DIMMs installed on one of the cell boards and as much as 64 GB by filling all 16 DIMM slots on both cell boards with 2 GB DIMMs 24 Introduction DIMMs must be loaded in sets of two at specified locations on the cell board Two DIMMs are called an echelon so two echelons would be equivalent to four DIMMs three echelons would be equivalent to six DIMMs and so on The DIMMs must be the same size in an echelon The DIMMs across all cells in a partition should have identical memory loaded Figure 1 9 shows the DIMM slot layout on the cell board For DIMM load order see Table 1 4 A quad seen in Figure 1 9 is a grouping of four DIMMs Configurations with 8 or 16 DIMM
101. been taken during power distribution system design to provide immunity to power outages of less than one cycle However testing cannot conclusively rule out loss of service Therefore adherence to the following guidelines provides the best possible performance of power distribution systems for server equipment e A dedicated power source isolates the server power distribution system from other circuits in the facility e Missing phase and low voltage detectors automatically shuts equipment down when a severe power disruption occurs For peripheral equipment these devices are recommended but optional e Anonline uninterruptible power supply UPS keeps input voltage to devices constant and should be considered if outages of one half cycle or more are common For each situation enlist the assistance of a qualified contractor or consultant Distribution Hardware This section describes wire selection and the types of raceways electrical conduits used in the distribution system Wire Selection Use copper conductors instead of aluminum because aluminum s coefficient of expansion differs significantly from that of other metals used in power hardware Because of this difference aluminum conductors can cause connector hardware to loosen overheat and fail Raceway Systems Electrical Conduits Raceways electrical conduits form part of the protective ground path for personnel and equipment Raceways protect the wiring from accidental
102. bly is located in the rear of the chassis The fan assembly is a hot swappable component A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 13 Rear Smart Fan Assembly Locations Ex c Rear View Fan 2 LED Table 6 2 Rear Smart Fan Assembly LED Indications LED State Description On Green Fan is at speed and in sync or not at speed less than six seconds Flashing Fan is not keeping up with speed sync pulse for greater than six seconds Yellow Flashing Red Fan failed stalled or has run slow or fast for greater than six seconds Off Fan is not installed or no power is applied to fan 108 Removing and Replacing Components Removing a Rear Smart Fan Assembly Figure 6 14 Rear Fan Detail To remove a rear smart fan assembly follow these steps 1 Push the fan release pin away from the fan 2 Slide the fan away from the connector 3 Pull the fan away from the chassis Replacing a Rear Smart Fan Assembly To replace a front smart fan assembly follow these steps 1 Carefully position the fan assembly on the chassis fan guide pins 2 Slide the fan into the connector 3 Verify that the fan release pin is in the locked position 32 f NOTE A green fan LED indicates the fan is operational Removing and Replacing a PCI Smart Fan Assembly The PCI smart fan assembly is loca
103. c Ee 161 heplaeinga Core WO Board coord noe erara a ento cress mutts hb CHR e valen dota edes 163 Configuring MP Network Settlrgs ascesistens Febues o iar emitte qtiae re DEN ie plea eodd enr a El 163 Removing and Replacing the System Back plane cect ee ete re eee lante ie ee tee es 164 Removing the System backplarie eres teneri eer rd eter atten or ier a e Pee ode em e rt eine 165 Replacmg the System Back planes a oe reet re ea e m lie qa De a AV E eR P He b 166 Removing and Replacing the PCA Front Panel Board sss 167 Removing the PCA Front Panel Board aei eerte rt pad quae OR RU E i AdEUE 167 Replacing the Front Panel DOSEG iie avoit ee b tere eni emo e Waren hed e eigo PN RENE eee 168 A Parts Gnd Jccessories eae Ra ed el a v i adve 171 Boysen Spee ficahons escorol telaio stil tette ual torte Mean de etd tb 175 Dimensions and Welg tss actes taite da nieve dee tese t oto peel Ute Mit wend onic uut ob redu radio dasa cien ERU ed 175 Electrical Specifications oso ier teorie eet bow tenen abaa a A coe deine itane 175 Groundin e mesme roges dao tuae dpi Eea ee aa TON clt dane a N e e a T o nea NE 175 6 Table of Contents PRS POW CRE Systems uu desse ren haie Moog dea wes te esce e o epe Rees bau err sp ie pots 175 Circuit Break et oe ac ete t M E e tm M IEEE 175 System AC Power Specifications sin inii oe fett rator de erit ei cet m ce den sine eta dese esed Case eases 176 Power COfdSs e Lee ep E e RE Eee leet ee e
104. cell board connectors A NOTE CPU load order must be maintained when adding CPUs to the cell board Always load CPU socket 0 first To replace the processor follow these steps 1 2 3 4 A A ET ET 10 11 If the CPU 0 ZIF socket is not exposed remove the ZIF socket pin cover from the cell board Ensure that the cell board ZIF socket is in the unlocked position Remove the CPU module from its packaging Remove the CPU module pin cover and inspect the pins for any damage NOTE Carefully remove pin cover to avoid any damage to the pins Slide the load screw sequencer toward the turbo cooler to expose the ZIF socket peep hole through the turbo cooler Lower the CPU module onto the ZIF socket making sure it is held level to the board until the pins engage the ZIF socket Using a 2 5 mm hex driver through the peep hole turn the ZIF socket lock unlock screw one half turn to lock the CPU into place CAUTION Do not exceed one half turn clockwise when locking the CPU into the ZIF socket Damage to the ZIF socket will occur requiring the cell board to be replaced NOTE Ensure that the ZIF socket is fully locked Use a 2 5mm hex wrench to lock the ZIF socket Check that the CPU module housing is level and shifts slightly right when locking the ZIF socket Slide the load screw sequencer away from the turbo cooler Tighten the four T15 screws on the sequencer in an X pattern turning each scr
105. ci ee het tei eo tuns be rec bui 116 PCV OLR Assembly Location d ad act ie e tbid mite teo lbs ere iiec a 117 BGPMREDetall 1 57 et tet t nece tres ect no eee etr Eat tat O deutet etis in at So arre 117 PCT OER Assembly Removals topi te M ise ea Era EE ads LU A bo Ret rH E e iR Set 118 PCUPCEX Card LoecatiOnt l entre ee tere eoe desea tapete eate a deo bee re deba eade 119 PCI X Card ape Assembly LoGSEODs a oco os pede uei ik rebos pude Dec pu od a ei Ue bd 121 PUL Card Case Assembb Detalle dee Qe a pers ou dentate are iM oc 122 PCI Aceess Panel Sere ws xi ves sss ertet sesesceapuesvades eee ee meeta E bee eo o v ee b ie Ree ea FER ERR EYE 122 Removing the PET Cape Access Panel aco e aea Ne uum gre ND Doe re ae 123 Locating Intern l Disks cac diu siepe courier el ier dicte Ud de A Db DE Du Sele Ets 124 Locating the Mass Storage Packplane i aste eie e iode t Rr Seri pot uds preti de or uebdd 125 Mass otorape Backplane oce ee tatepi tte hate etie t vein bot iiec dep PU Feinde cir LUE 125 Heatsink with Turbo Cooler Fan Removed eese hene nnne ense ense ne n 126 Soldetr d Eleatemk and C pian eset etii etl erede tre icu Gus Iac dii ee to ua deba incid 127 Machined Heatsink and Cp eee etenatat abeo eee e eb eR e vene down Idus 127 Cell Board TOCA Oi ies oe tti vete etra r cab USE eee ee HESS v eee er POE eee saa 128 Cell Board Detail eer REO PUE A te odd ER rhet tees i es 129 Cell LEES eere tette tete ie i eere teet eec eite edes 129
106. cle the cell Firmware upgrade downgrade the system firmware image to the new cell 132 Removing and Replacing Components Run the Onboard Scan Programming Utility to upgrade downgrade the new Cell FPGA to match the version on the other cells MP CM osp When prompted enter the following information Enter the Entities to be upgraded Ex 2 4 7 1 Enter your user name 2 Enter your user password 3 Enter the ip address where the FPGA image file can be found 4 Enter the path where the file s can be found 5 Enter PDHC FPGA image filename 6 Are you sure that you want to continue Y N y 1 Select the appropriate entity corresponding to the replacement cell to be upgraded downgraded by entering the number from the first column of the OSP table 2 Enter your user name 3 Enter account password 4 Enter the ip address of the anonymous FTP server where the firmware images reside 5 Enter the directory path For example dist version3 0 or some other location Do not list the actual firmware image filename 6 Enter the filename For example pdhc_1 7 0 osp Example MP CM osp KRKKKKKKKKKKKKKKKKKKKKKK cce ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck ck kk kk ck ck kc kc kc kc kc kc ko ko ko ko KKKKK KKKKK kkk kk Onboard Scan Programming Utility kk kkk KKKKK KKKKK donde C Copyright 2001 Hewlett Packard Company dee x RHR All Rights Reserved RHR KKKKK KKKKK OR kk THIS PROGRAM I
107. connector on the cell board Route the power cable left or right to the cell board connector Reconnect the CPU power pod cable to the cell board connector NOTE Due to space constraints it may be necessary to use a tool to assist with inserting CPU 0 and CPU2 power pod and turbo cooler cables into the cell board connectors Install remaining CPUs keeping load order in mind Install the VRM cover AB388 00002 onto the left side of the cell board Tighten the screw See Figure 6 54 Figure 6 54 VRM Cover Installed Install the door opener onto the right side of the cell board Tighten the screw See Figure 6 55 Figure 6 55 Door Opener Installed Removing and Replacing a Central Processing Unit 155 Figure 6 56 VRM Cover and Door Opener Installed 18 Position the DIMM cover in place 19 Tighten the four captive screws to secure the DIMM cover 20 Install the cell board in the server 21 Replace the right side cover 22 Power on the server For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 23 Verify the firmware and hardware programmable hardware revisions in standby power mode by using the MP CM gt SYSREV command Below is an example of the minimum firmware version ET NOTE Firmware must be updated to support the new processors Below is an example of minimum Firmware Version 3 3 PROGRAMMABLE HARDWARE System Backplane GPM 1 002 System Back
108. coustics 191 air conditioning equipment requirements 187 air conditioning recommendations 187 air distribution systems 188 computer room considerations 186 dust and pollution control 189 221 electrostatic discharge prevention 190 humidity level 189 static protection measures 190 ER 89 error message 90 ESD 190 ESD precautions ESD kit part number 96 F facility characteristics 191 facility guidelines characteristics 191 floor loading terms 191 operational space requirements 193 typical raised floor site 192 windows 192 fire protection 181 firmware 90 firmware update 90 flash memory 90 floor loading raised floor 191 front panel display 62 FW 89 G gateway address 63 getty 85 grounding systems 183 electrical conduit ground 184 H HE 88 high availability H A 85 housekeeping power 62 HP UX 85 humidity level 189 ID 89 IF 89 installation checklist 70 interference 96 IP address default 63 lc Comand Screen 63 IT 89 K Keystone system air ducts 178 environmental elements 186 power system protection 182 L LAN 85 90 222 Index LAN status 63 LC 89 lc LAN configuration command 64 LED Attention 62 Bulk Power Supply 62 SP Active 62 Standby Power Good 62 login name MP 63 LS 88 89 Is LAN Status command 65 M MA 89 MAC address 63 main building electrical ground 184 management hardware 85 management LAN 90 Ma
109. ct the server and to check the UPS output voltage UPS User Manual documentation is shipped with the UPS Documentation may also be found on the HP website at http www hp com racksolutions 1 Verify that site power is OFF 2 Open the site circuit breakers 3 Verify that the receptacle ground connector is connected to ground For connector details see Figure 4 6 4 Setthe site power circuit breaker to ON AC Voltage Check Additional Procedure 59 Figure 4 6 Wall Receptacle Pinouts GND GND GND GND CEE 7 7 IEC 309164 L6 20 GB 1002 A WARNING There is a risk of shock hazard while testing primary power Use properly insulated probes Verify that the voltage between receptacle pins x and y is between 200 and 240V AC Set the site power circuit breaker to OFF Ensure that power is removed from the server 90 T4 ON QM Route and connect the server power connector to the site power receptacle e For locking type receptacles line up the key on the plug with the groove in the receptacle e Push the plug into the receptacle and rotate to lock the connector in place A WARNING Do notset site AC circuit breakers serving the processor cabinets to ON before verifying that the cabinet has been wired into the site AC power supply correctly Failure to do so can result in injury to personnel or damage to equipment when AC power is applied to the cabinet 9 Set the site power circuit breaker to ON 10 Set the ser
110. ct tpe seo qat cau Aa Eea eb pee a Motels Praes ubi bo ped 183 Power Distribution Safety Grounding EAEIT seite rore p E oe inde i Per te n REUS 183 Main Building Electrical Ground erdt retourne eee ere end Senatu e XE toi Rd etus 184 Electrical Conduit Ground eese eene enne Aa A EVEA A A AAE EENET ETENA 184 PowerPanel Grond auraa a AN AAAA N aANT 184 Computer Safety Growin as qi ttis eeter De tur EES E EA pent et RE QU EEEE OM KE EE T ERR ETUR 184 Dual Power Source Grounding perte eite sete Reyes paren rite e Hee Ru 184 Cabinet Performance Grounding High Frequency Ground sese 184 Raised Floor High Frequency Noise Grounding eeiicet eee beret eren 184 Equipment Grounding Implementation Details sse 185 system Installation Guideliness uote eme Ee ceni ae etu e Du evel s I UN Itu Dei tes 186 Wiring C OTnee HOLDS astuce aceti cst ep textes Po s wee eb xuE Roy ti Fey RE Spe T v dE Mine tup uade stg E 186 Data Communicatuons Cables Lp tto eb IR PT ERE em p DIE ears 186 Environmental Elements ects etate teer tet teer steel sai eene Popes toe verte s dubs ev tee bas PROP eE e dvd 186 Computer Room PrIeparatodiequueoneiue Tween desde vta rt epee aan Opern dL 186 Table of Contents 7 Cooling Requiremmehfe sna vit Rers tug cepi oe Poet te p npe e do E REN Res RANT Hn Mar eU pe 187 Basic Air Conditioning Equipment Requifements ieu pio pote Rd E RE e ERR HERR ERE 187 Air Conditio
111. d image type prior to burning the image into the Flash memory Possible Error Messages e Could not ping host e Could not validate CRC of packet e Could not find firmware update e Invalid password Firmware Update Tool for IPF A A The OS Initate able Firmware Update Tool for IPF enables the firmware update process to begin and end in the operating system Minimal interaction from you is required The tool runs only during installation after which the system is rebooted NOTE The OS Initiate able Firmware Update Tool for IPF can be used only when system firmware is being upgraded and no other firmware components are to be updated In multi cell systems the tool updates the firmware for all the cells only in the partition from which the tool is launched All the other partitions are unaffected and continue to run on the previous version firmware To update all the partitions the tool must be run on all the partitions NOTE The use of this tool is restricted to super users Installing and Uninstalling on HP UX Installing the Firmware Update Tool on HP UX To update the firmware follow these steps Enter the swinstall command swinstall x autoreboot true s tmp FUTests OSIFU depot PHSS 28608 90 Troubleshooting Figure 5 12 swinstall Output 08 21 03 20 30 52 PDT BEGIN swinstall SESSION non interactive jJobid hpdst70 0011 Session started for user root ihpdst70 Beginning Selection
112. d VRM 157 Figure 6 58 Cell Board Detail ET NOTE The cell board weighs 27 8 Ib Support both side edges while removing the cell board from the chassis To remove a cell board VRM follow these steps 1 2 3 s 8 9 Power off the cell board using the MP command menu PE command Remove the right side cover Verify that the power LED located on the left side of the cell board is off before removing the cell board For more information see Removing a Cell Board VRM page 157 Slide the cell board from the chassis Remove the DIMM cover a Loosen the four captive screws that secure the DIMM cover b Liftthe DIMM cover away from the cell board Remove the CPU cover a Loosen the captive screws on the CPU cover b Lift the cover and set aside Locate the VRM to be removed Loosen the hold down retaining screws that secure the VRM to the cell board Lift the VRM out of the socket Replacing a Cell Board VRM To replace a cell board VRM follow these steps 1 2 Gon Ov LOW o Place the VRM into the socket Tighten the hold down retaining screws to secure the VRM into the cell board Do not over tighten the screws Replace the CPU cover Replace the DIMM cover Insert the cell board into the chassis Replace the right side cover Power on the server Verify proper operation of the cell board 158 Removing and Replacing Components Removing and Replacing a DIMM The DIMMs reside o
113. d discussion of power distribution system design and installation is beyond the scope of this document However electrical factors relating to power distribution system design and installation must be considered during the site preparation process These factors include e Computer room safety e Power consumption e Electrical load requirements circuit breaker sizing e Power quality e Distribution hardware e System installation guidelines Computer Room Safety Inside the computer room fire protection and adequate lighting for equipment servicing are important safety considerations Federal and local safety codes govern computer installations Fire Protection The national Fire Protection Association s Standard for the Protection of Electronic Computer Data Processing Equipment NFPA 75 contains information on safety monitoring equipment for computer rooms Most computer room installations are equipped with the following fire protection devices e Smoke detectors e Fire and temperature alarms e Fire extinguishing system Additional safety devices are e Circuit breakers e Anemergency power cutoff switch e Devices specific to the geographic location such as earthquake protection Lighting Requirements for Equipment Servicing Adequate lighting and utility outlets in a computer room reduce the possibility of accidents during equipment servicing Safer servicing is also more efficient and therefore less costly Electric
114. damage and provide a heatsink for the wires Any of the following types can be used e Electrical Metallic Tubing EMT thin wall tubing e Rigid metal conduit e Liquidtight with RFI strain relief most commonly used with raised floors Building Distribution All building feeders and branch circuitry should be in rigid metallic conduit with proper connectors to provide ground continuity Conduit that is exposed and subject to damage should be constructed of rigid galvanized steel Power Routing Power drops and interface cables from the equipment are routed down from the power panel through a grommet protected opening beneath the floor level and under the floor panels Grounding Systems The server requires two methods of grounding e Power distribution safety grounding e High frequency intercabinet grounding Power Distribution Safety Grounding LAHJ The power distribution safety grounding system consists of connecting various points in the power distribution system to earth ground using green green yellow wire ground conductors Having these ground connections tied to metal chassis parts that computer room personnel might touch protects them against shock hazard from current leakage and fault conditions Power distribution systems consist of several parts HP recommends that these parts be solidly interconnected to provide an equipotential ground to all points Electrical Factors 183 Main Building Electrical Ground
115. der that must be maintained when adding CPUs to the cell board Always load CPU socket 0 first To install a dual core CPU follow these steps 1 Remove the dual core CPU from its packaging 2 Route the red and black cables into the groove in the back of the CPU module toward the appropriate power connector on the cell board 3 Lower the CPU module onto the socket making sure it is held level to the board 4 Align the locating pins on the underside of the module onto the guide holes on the cell board socket rails Removing and Replacing a Central Processing Unit 149 Figure 6 49 Locating Pins on the CPU Module 6 50 Guide Holes on Cell Board igure Using a 2 5 mm hex driver turn the ZIF socket screw one half turn clockwise to lock the CPU into place F 5 150 Removing and Replacing Components Figure 6 51 Locking the CPU Into the Cell Board ZIF Socket 6 Place the sequencer fan assembly over the CPU module 7 Tighten the T15 screws on the sequencer in an X pattern turning each screw 2 3 turns until all screws are secure Figure 6 52 Sequencer Fan Assembly Installed 8 Alternately tighten the power module screws until secure Removing and Replacing a Central Processing Unit 151 10 11 12 13 14 15 16 17 18 19 20 22 23 Connect the sequencer fan cable to the connector on the cell board Connect the CPU power cable to the cell board connector Ensure all cables are p
116. divided by 12 000 tons of refrigeration required NOTE When determining power requirements you must consider any peripheral equipment that will be installed during initial installation or as a later update See the applicable documentation for such devices to determine the power and air conditioning that is required to support these devices Acoustic Noise Specification Airflow The acoustic noise specification for the HP Integrity rx7620 Server is 57 3 db sound pressure level at bystander position It is appropriate for dedicated computer room environments but not office environments The LwA is 7 5 Bels Be sure to understand the acoustic noise specifications relative to operator positions within the computer room or when adding servers to computer rooms with existing noise sources The HP Integrity rx7620 Server requires that the cabinet air intake temperature be between 68 and 77 F 20 and 25 C at 960 CFM Figure B 1 illustrates the location of the inlet and outlet airducts on a single cabinet 178 System Specifications Figure B 1 Airflow Diagram System Requirements Summary This appendix summarizes the requirements that must be considered in preparing the site for the HP Integrity rx7620 Server Power Consumption and Air Conditioning A To determine the power consumed and the air conditioning required follow the guidelines in Table B 5 NOTE When determining power requirements consider any peripher
117. down in one minute This command initiates a Windows system shutdown and reboot after a timeout period of 60 seconds The c option specifies a message that is broadcast to any other users of the system Shutting Down Linux Use the shutdown command to shut down the Red Hat Linux or the SuSE Linux Enterprise Server operating system The Red Hat Linux and SuSE Linux Enterprise Server shutdown command includes the following options h Halt after shutdown On nPartition capable HP Integrity servers this will either power off server hardware or put the nPartition into a shutdown for reconfigure state Use the PE command at the MP Command menu to manually power on or power off server hardware as needed em Reboot after shutdown x Cancel an already running shutdown 216 Operating System Boot and Shutdown ET time When to shut down Required time can be specified in any of the following ways e Absolute time in the format hh mm in which hh is the hour one or two digits and mm is the minute of the hour two digits e Number of minutes to wait in the format m in which m is the number of minutes e now to immediately shut down this is equivalent to using 0 to wait zero minutes For details see the shutdown 8 Linux manpage See also the Linux manpage for the poweroff command NOTE You can configure the nPartition behavior when an OS is shutdown and halted shutdown hor poweroff The two options are to have
118. e 1 7 Memory Subsystem PDH Riter Board a Addre 16 Address a a Butter Controller Butter Butr Controller Butter a 8 Eu ffer Bu fer 3 a DIMM BIMM DMM O DIMM ee Eie e e dd aa DMM X cot es DIMM om 2 35 ow 7 BE BB c c cc 89 o z a Eu ffer 2s Buffer a E Eufhr controller Euffer is g a Eufhr controller Butter E a Addre ua 5S5 55 Addreri a ad ad Fw t2 H Cw v o uv DMM M EE pw DMM 0 d d d d bmw ee ee Front Side Bua Cell Front Side Bui 0 Controller CPU2 CPUS CPU 1 CPUSO PDH Riser Board The Platform Dependant Hardware Riser board is a daughter card for the cell board It contains a micro processor memory interface microcircuit processor dependent hardware including the processor dependent code PDC flash memory and a manageability microcontroller called the Platform Dependant Hardware Controller PDHC with associated circuitry The PDH obtains cell board configuration information from cell board signals and from the cell s LPM The PDH riser board contains circuitry that the cell board requires to function and therefore each cell board must have a PDH Riser installed before it is added to a server Central Processor Units The cell board can hold up to four CPU modules and can be populated with CPUs in increments of one after meeting the minimum of two CPUs installed on the cell boa
119. e When exterior windows are unavoidable use windows that are double or triple glazed and shaded to prevent direct sunlight from entering the computer room e Maintain the computer room at a positive pressure relative to surrounding spaces 186 General Site Preparation Guidelines e Usea vapor barrier installed around the entire computer room envelope to restrain moisture migration e Caulk and vapor seal all pipes and cables that penetrate the envelope e Useatleasta 12 inch raised floor system for the most favorable room air distribution system underfloor distribution e Ensure a minimum ceiling height of 12 inches between the top of the server and the ceiling and that all ceiling clips are in place e Allow 18 inches or local code minimum clearance from the top of the server cabinet to the fire sprinkler heads Cooling Requirements Air conditioning equipment requirements and recommendations are described in the following sections Basic Air Conditioning Equipment Requirements The cooling capacity of the installed air conditioning equipment for the computer room should be sufficient to offset the computer equipment dissipation loads as well as any space envelope heat gain This equipment should include e Air filtration e Cooling or dehumidification e Humidification e Reheating e Air distribution e System controls adequate to maintain the computer room within the operating range Lighting and personnel must also b
120. e electronic instrumentation Essentially a vapor seal is a barrier that prevents air moisture and contaminants from migrating through tiny cracks or pores in the walls floor and ceiling into the critical space Vapor barriers may be created using plastic film vapor retardant paint vinyl wall coverings and vinyl floor systems in combination with careful sealing of all openings doors and windows into the room A unit of electricity consumption representing the product of amperage and voltage When the power requirement of a product is listed in watts you can convert to amps by dividing the wattage by the voltage e g 1200 watts divided by 120 volts is 10 amps 220 Site Preparation Glossary Index A access commands 88 air conditioning system recommendations 187 air distribution system room space return air 188 air ducts 178 illustrated 179 AR 89 average floor loading 192 B backplane mass storage 27 167 173 175 PCI 18 19 27 116 123 system 19 27 28 164 165 166 168 173 175 177 removing and replacing 164 165 166 basic air conditioning equipment requirements 187 basic air distribution systems 188 BO 89 BPS Bulk Power Supply 62 C CA 89 cards core I O 85 CC 89 cell board 22 28 37 61 66 69 79 123 129 130 159 175 177 removing and replacing 129 130 verifying presence 66 checklist installation 70 circuit breaker 182 cm Command Menu command 67 co Console c
121. e ersa tip ovale E E deb d manana gas 43 Foam Block Removal e rei ete roter teh oett He eese ete eee eese cav euer T 43 Attaching a Caster to the D EVOE covered one e s eate edu eu mead Ma Pera ep i ee n ode 44 Securing Each Caster Cover to the Server b ss Cusen exe etus ria atau ea OL EUN Ne YR SRL 45 Completed Server uiros peter ab ab Sp dato Stare bti pp ub Er rope vetet 45 PCI T O Slobtetailsz 5 ooi tootee st eco ete teen ev ades dete ceste daos Ulo cect vaa et den E dra cuiii sant shingle te 50 Removable Media Bay Location eva tedtutiex epe vatektust dut ita te tub fis aver Ete Pt 51 IKE ii i M 51 Doer able Een quenter tenenateto ato e ve E reset be ated eto vrbis 52 Hold Down Plate and Screw iicccccccccccccccsscccccsscccsccssccsscucsccsscucsccsseeuscesseescesseescesseuusessseusessseuensess 53 SCSI and Power Cable ROUUDEcu o ert per pte ripe ei na rv ri vti RU ERAI take eai 54 Power Cord ConfiguratlOni cederet efte eines sedeo ek ose fie Mees baeo eo eei eva eave 55 Power Source Versus Power Distribution cccccccccccseccccccessccssceseccsscesecsscesccsseuuscesseuuesesseuuness 56 HP Integrity rx7620 Server DC Power IUE osesttopetee p ber NON REPERI aO UAE A URGES 57 Voltage Reference Points for IEG 920 C 19 Pio iore tee pleri teta eri bte esee 58 Safety Ground Reference Check eedem titre seed cua etse neat eoa erano ong d etn odo e 59 Wall Receptacle Pinout ee es eiie t hc ti eee Poe inet to ha erret pe eique bx i ete a
122. e included For example a person dissipates about 450 Btu per hour while performing a typical computer room task At altitudes above 10 000 ft 3048 m the lower air density reduces the cooling capability of air conditioning systems If your facility is located above this altitude the recommended temperature ranges might need to be modified For each 1000 ft 305 m increase in altitude above 10 000 feet up to a maximum of 15 000 ft subtract 1 5 F 0 83 C from the upper limit of the temperature range Air Conditioning System Guidelines The following guidelines are recommended when designing an air conditioning system and selecting the necessary equipment e The air conditioning system that serves the computer room should be capable of operating 24 hours a day 365 days a year It should also be independent of other systems in the building e Consider the long term value of computer system availability redundant air conditioning equipment or capacity e The system should be capable of handling any future computer system expansion e Air conditioning equipment air filters should have a minimum rating of 45 based on ASHRAE Standard 52 76 Dust Spot Efficiency Test e Introduce only enough outside air into the system to meet building code requirements for human occupancy and to maintain a positive air pressure in the computer room Air Conditioning System Types The following three air conditioning system types are listed in orde
123. e of air flow cannot be controlled because of poor duct sealing Also the ducts should not be exposed to warm air or humidity levels may increase Humidity Level A Maintain proper humidity levels at 40 to 55 RH High humidity causes galvanic actions to occur between some dissimilar metals This eventually causes a high resistance between connections leading to equipment failures High humidity can also have an adverse affect on some magnetic tapes and paper media CAUTION Low humidity contributes to undesirably high levels of electrostatic charges This increases the ESD voltage potential ESD can cause component damage during servicing operations Paper feed problems on high speed printers are usually encountered in low humidity environments Low humidity levels are often the result of the facility heating system and occur during the cold season Most heating systems cause air to have a low humidity level unless the system has a built in humidifier Dust and Pollution Control Computer equipment can be adversely affected by dust and microscopic particles in the site environment Specifically disk drives tape drives and some other mechanical devices can have bearing failures resulting from airborne abrasive particles Dust might also blanket electronic components like printed circuit boards causing premature failure from excess heat and or humidity build up on the boards Other failures to power supplies and other electron
124. e unlocked position and fully open each latch on the cell board Insert the cell board into the guide rails Slide into the chassis until the cell board levers contact the cell board guide rails Using equal pressure simultaneously press both extraction levers to seat the cell board in the chassis Move each slide to the locked position and release the lever See Figure 6 41 130 Removing and Replacing Components Figure 6 41 Extraction Lever Locked Position Ensure that both levers are in the locked position If both levers are not locked the cell board does not power on To verify that the extraction levers are locked and the cell board is in the proper operational status enter de from the Command Menu See Figure 6 41 page 131 To select the Cell Board Controller PDHC enter h and then enter the cell number Removing and Replacing a Cell Board 131 ET NOTE ThePDHC stateshouldread Attention LED is off andthe Power Status should read RDY If the Power Status reads rdy one or both of the extraction levers are not properly locked Ensure both cell board extraction levers are locked Figure 6 42 shows a sample of the output Figure 6 42 de Command Output MP CM gt de Display summary status of the selected MP device BPS Bulk Power Supplies CLU CCabinet Utilities Fans Intrusion Clock s etc PACI Partition Console Interface MP Management Processor PM XPover Management Cell Board Controller
125. e upgraded Ex 3 4 10 1 Enter your user name 2 Enter your user password 3 Enter the ip address where the firmware can be found 4 Enter the path where the firmware can be found 5 Enter the filename of the firmware image for the PDHC 6 Enter the filename of the System Firmware image 7 Enter the filename of the firmware image for the MP 8 Are you sure that you want to continue Y N y 1 Select the appropriate entity corresponding to the replacement cell to be upgraded downgraded by entering the number from the first column of the FW table 2 Enter your user name 3 Enter account password 4 Enter the ip address of the anonymous FTP server where the firmware images reside 5 Enter the directory path For example dist versionX X orsome other location Do not list the actual firmware image filename 6 Enter the PDHC filename pdhc A X X X bin See Note 1 in this step NOTE 1 X X Xis the version number corresponding to the version of the PDHC firmware on the other cells Example MP CM fw kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxk KKKKK KkKKKK kkk k k Firmware Update Utility k k k k KKKKK KkKKKK T ERN C Copyright 2001 Hewlett Packard Company kk kkk EE All Rights Reserved Wok KKKKK KKKKK Xd THIS PROGRAM IS NOT LICENSED TO CUSTOMERS ELLEN KKKKK KKKKK This program is intended for use by trained HP support EERE personnel only HP shall not be liable fo
126. e voltage measurement examples dependent on the geographic region where these measurements are taken Table 4 1 Single Phase Voltage Examples 1 In some European countries there may not be a polarization Safety Ground Verification This measures the voltage level between B0 and A0 The measurement is taken between ground pins of the two power cords For ground reference points when performing this measurement see Figure 4 5 Cable Connections Japan North America Europe L1 L2 210V 208V or 240V 230V L1 GND 105V 120V 230V L2 GND 105V 120V OV Figure 4 5 Safety Ground Reference Check wv Measure the voltage between BO and AO Take the AC voltage down to the lowest scale on the volt meter Insert one probe into the ground pin for BO Insert the other probe into the ground pin for AO Verify that the measurement is between 0 5V AC If the measurement is 5V or greater escalate the situation Do not attempt to plug the power cords into the HP Integrity rx7620 Server AC Voltage Check Additional Procedure This AC voltage check ensures that all phases and neutral for international systems are connected correctly to the cabinet and that the AC input voltage is within limits ET This procedure must be performed if the previous voltage check procedure did not yield the expected results as previously outlined NOTE If a UPS is used see the applicable UPS documentation for information to conne
127. e xad bv n Ht ERE Ux DN EE SiE Riera aa 111 Removing and Replacing a Bulk Power Supply eee ettet tete seve tienne ener din ce nae es 111 PRCT OVAR EA M ipeo NM TE TER 112 Iiei tulad Mluce C I 113 Removing and Replacing a PCI Power Module eie ereor i ueber euh Ex ens P REN Rb po 113 Preliminary Procedures uoce verb cian e eter eme a EUH A UP va dca havea umen det la red T breit hts 114 Removing ad CI Power Module oes ep Cete qe anda pae teg S inae rre Bp det meos 115 Replacing a PCL Power Module oed esi pater ete d apri eot s tues epe E PO tete NER NEEE 115 Removing and Replacing the PCI X Voltage Regulator Modules sese 116 Removing the PCIEX VRM Sois piter be oven Poe ve bo DE Le Desa et REMO rte PE IR LOIS 116 Replacing the PCEX VRM A ieectosivests cento a to pee tipps cau esso eb putt pepe EEE an ess eee io peat 116 Removing and Replacing the PCI OLR Assembly unde eater n vire bu tetro vetet diy 116 Table of Contents 5 Removing the PCLOLR Assembly dee oi neto beo i ees o rid ia Ceci a ERI viet aG 117 Replacing the PELOLR Assembly ica cre e etu ope Da ben Cate ir e ci EEES 118 Removing and Replacing a PCI PCEN Card ue incendere eee oth tutor Va dep oa unsere eee nhe lata ues ERR AReRM 119 Removing a PCUPGTX Gard giga REPE rbv abb M ESEESE E 119 Replacing a PCDBCEX Cardero eee No apte meets depu Uh ovn trames dla tpa veut cipue s 120 Option ROM assess dE deeem se Re E
128. ec PA 5 0 PDHC 1A 0 257 A 003 023 Current 6 0 PDHC 1B 0 265 A 003 023 Old 7 0 SFW 1A 0 321 21 001 Pri PA 8 0 SFW 1B 0 329 21 001 Sec PA Note You can only duplicate one firmware type at a time Enter the Entities to be updated EX 7 8 2 Enter the source entity for the PDHC firmware image 5 Are you sure that you want to continue Y N y Updating device PDHC OB Erasing Flash es This may take several minutes DFW has completed successfully for all entities Once DFW has completed verify the following message is returned DFW has completed successfully for all entities A CAUTION DO NOT RESET or AC POWER CYCLE the server unless you have received confirmation that DEW has completed successfully Repeat the DFW command immediately if the firmware failed to complete successfully NOTE 1 After a DFW copy of a cell PDHC firmware image is captured the version displayed by the sysrev command will not be correct until the cell PDHC is reset using the ru command or AC power is cycled 5 Perform steps 6 and 7 from Step 6 6 Example To downgrade the System Firmware image A firmware MP CM dfw kkkkkkxkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkkkkkkkkkkkkkkkkkkk kkkxkx k 142 Removing and Replacing Components kkkkx k kkkkx Jokes Duplicate Firmware Utility k k k k k KKKKK KkKKKK qoe C Copyright 2001 Hewlett Packard Company EEEE ERKAK All Rights Reserved RKE RIR KKKKK KkKKKK kk kk THIS PROGRAM IS NOT LICEN
129. egrity rx7620 Server If the expected results from this procedure are not observed during the voltage check see AC Voltage Check Additional Procedure page 59 Voltage Range Verification of Receptacle This measures the voltage between L1 and L2 L1 to ground and L2 to ground Three separate measurements are performed during this procedure For voltage reference points when performing the following measurements see Figure 4 4 AC Voltage Check 57 58 Figure 4 4 Voltage Reference Points for IEC 320 C19 Plug Step 1 we IMPORTANT These measurements must be performed for every power cord that plugs into the HP Integrity rx7620 Server To measure the voltage follow these steps 1 Measure the voltage between L1 and L2 This is considered to be a phase to phase measurement in North America In Europe and certain parts of Asia Pacific this measurement is referred to as a phase to neutral measurement The expected voltage measured should be between 200 240V AC regardless of the geographic region Measure the voltage between L1 and ground In North America verify this voltage is between 100 120V AC In Europe and certain parts of Asia Pacific verify this voltage is between 200 240V AC Measure the voltage between L2 and ground In North America verify this voltage is between 100 120V AC In Europe and certain parts of Asia Pacific verify this voltage is 0 zero V N a AC Table 4 1 provides single phas
130. elect a Windows entry from the boot options list Using the ia641dr efi Windows loader from the EFI Shell is not recommended Procedure D 5 Windows Booting From the EFI Boot Manager menu select an item from the boot options list to boot Windows using the selected boot option For required configuration details see ACPI Configuration for Windows Must Be windows page 211 1 Access the EFI Boot Manager menu for the system on which you want to boot Windows To access the Console list log in to the MP and enter CO Select the nPartition console When accessing the console confirm that you are at the EFI Boot Manager menu the main EFI menu If you are at another EFI menu select Exit from the sub menus until you return to the screen with the EFI Boot Manager heading 2 Atthe EFI Boot Manager menu select an item from the boot options list Each item in the boot options list references a specific boot device and provides a specific set of boot options or arguments to be used when booting the device 9 To initiate booting using the selected boot option press Return or Enter 4 Once Windows begins loading wait for the Special Administration Console SAC to become available The SAC interface provides a text based administration tool that is available from the nPartition console For details see the SAC online help enter at the SAC gt prompt Loading Windows Server 2003 Datacenter Starting Windows Server 2003
131. emove Replacing the PCI X Card Cage Assembly To replace a PCI X card cage assembly follow these steps 1 90 MO S ON m mM Tilt the assembly toward the chassis Position the assembly at an angle so that the retaining stand off pins engage Use the extractor levers to engage the assembly to the system board connector Reconnect the two cable bundles at the rear of the mass storage board Tighten the two captive screws on the backplane near the extractor levers Replace all PCI X cards in their proper slots Reconnect all PCI X card cables Reconnect the PCI X OLR ribbon cable to the PCI X backplane Replace the PCI fans Re engage the PCI power supplies Replace the PCI access panel Replace the top and side covers Removing and Replacing the PCI X Card Cage Assembly 123 Removing and Replacing the Mass Storage Backplane A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Removing the Backplane To remove a backplane follow these steps 1 Shutdown and power off the server 2 Remove all internal disks Figure 6 31 Locating Internal Disks Drive 1 2 Drive 0 2 Drive 1 1 Drive 0 1 3 Remove the top and right side covers 4 Remove the PCI access panel Disconnect all cables from the backplane Label each connector and take note of routing so that they can be correctly reinstal
132. er stringers and 24 in 61 0 cm by 24 in 61 0 cm floor panels In the event that the flooring is being replaced or a new floor is being installed Tate Access Floors recommendis its Series 1250 all steel access floor with bolt together stringers and 24 in 61 0 cm by 24 in 61 0 cm floor panels be used to support the server installation ET NOTE If the specific floor being evaluated or considered is other than a Tate Series 800 floor the specific floor manufacturer must be contacted to evaluate the floor being used Table C 4 lists specifications for the Tate Access Floors Series 800 raised floor system Table C 4 Typical Raised Floor Specifications 1 Item Rating Dead load 7 lb ft2 34 2 kg m2 Live load 313 Ib ft2 1528 3 kg m2 Concentrated load 1250 Ib 567 kg Ultimate load 4000 Ib 1814 kg per panel Rolling load 400 Ib 181 kg Average floor load 500 Ib 227 kg 1 From Table C3 page 191 2 With 0 08 in 0 2 cm of span maximum deflection Windows Avoid housing computers in a room with windows Sunlight entering a computer room can cause problems Magnetic tape storage media is damaged if exposed to direct sunlight Also the heat generated by sunlight places an additional load on the cooling system 192 General Site Preparation Guidelines Space Requirements This section contains information about space requirements for an HP Integrity rx7620 Server This data should be used
133. erials CAUTION The plastic wrapping material should be cut off rather than pulled off Pulling the plastic covering off represents an ESD hazard Figure 2 1 Removing the Polystraps and Cardboard 5 Remove the four bolts that hold the ramps to the pallet and remove the ramps See Figure 2 2 32 Unpacking the Server Figure 2 2 Removing the Shipping Bolts and Plastic Cover 6 Remove the six bolts from the base that attaches the rack to the pallet See Figure 2 3 Figure 2 3 Preparing to Roll Off the Pallet Unpacking a Racked Server 33 A WARNING Be sure that the leveling feet on the rack are raised before you roll the rack down the ramp and any time you roll the rack on the casters Use caution when rolling the cabinet off the ramp A single server in the cabinet weighs approximately 665 pounds HP strongly recommends that two people roll the cabinet off the pallet Securing the Cabinet When in position secure and stabilize the cabinet using the leveling feet at the corners of the base Install the anti tip mechanisms on the bottom front and rear of the rack Figure 2 4 Securing the Cabinet CQ 2 000000 34 Unpacking the Server Unpacking a Non Racked Server A NOTE If this server was delivered with a wheel kit proceed to Chapter 3 page 41 NOTE HP recommends the use of a lifter such as a RONI Company model 17000 SP 400 lifting device when movi
134. erver boot device EFI System Partition the full paths to the loader and configuration files are efi SuSE elilo efi efi SuSE elilo conf After selecting the filesystem for the boot device for example s0 you can invoke the Linux loader from the EFI Shell prompt by entering the full path for the ELILO EFI loader By default the ELILO EFI loader boots Linux using the kernel image and parameters specified by the default entry in the e1ilo conf file on the EFI System Partition for the boot device To interact with the ELILO EFI loader interrupt the boot process for example enter a space at the ELILO boot prompt To exit the ELILO EFI loader use the exit command Procedure D 7 SuSE Linux Enterprise Server Operating System Booting from the EFI Shell To boot SuSE Linux Enterprise Server 9 from the EFI Shell follow these steps For required configuration details see ACPI Configuration for SuSE Linux Enterprise Server Must Be default page 213 Booting the SuSE Linux Enterprise Server Operating System 213 1 Access the EFI Shell From the system console select the EFI Shell entry from the EFI Boot Manager menu to access the shell 2 Access the EFI System Partition for the SuSE Linux Enterprise Server boot device Use the map EFI Shell command to list the filesystems 80 s1 and so on that are known and have been mapped To select a filesystem to use enter its mapped name followed by a colon For example to ope
135. ervers the shutdown h command puts an nPartition into the shutdown for reconfig state for details see the discussion of shutdown R Hin this list e Shutdown HP UX and reboot the nPartition Issue the shutdown r command to shut down and reboot the nPartition On nPartition capable HP Integrity servers the shutdown r command is equivalent to the shutdown R command e Perform a reboot for reconfig of the nPartition Issue the HP UX shutdown R command to perform a reboot for reconfig This shuts down HP UX reconfigures the nPartition if needed and reboots the nPartition e Reboot the nPartition and put it in to the shutdown for reconfig state Use the HP UX shutdown R Hcommand to hold the nPartition in the shutdown for reconfig state This leaves the nPartition and all its cells in an inactive state the nPartition can be reconfigured remotely unless the normal behavior has been modified For details on changing OS halt behavior see ACPI Softpowerdown Configuration OS Shutdown Behavior page 206 To reboot the nPartition you must do so manually by using the BO command at the MP Command menu If HP UX is halted on the nPartition thus not allowing you to use the shutdown command you can reboot or reset the nPartition by issuing commands from the MP Command menu Shutting Down Microsoft Windows You can shut down the Windows operating system on HP Integrity servers using the Start menu or the shutdown command
136. es the configuration menu where you can reset configure or view system configuration Memory Accesses memory related commands Once the parameters have been verified enter x to return to the EFI Main Menu Booting HP UX Using the EFI Shell If Instant Ignition was ordered HP UX was installed in the factory at the Primary Path address If HP UX is at a path other than the Primary Path follow these steps To access the Command Menu from the Main Menu enter cm To boot the selected partition enter bo at the MP CM gt prompt Select a partition to boot Return to the Main Menu MP CM gt ma From the Main Menu go to the Consoles menu MP gt co and select the partition number To go back to the Main Menu press ctrl b Once at the EFI Shell prompt select the file system to boot Generally this is s0 Shell fso S QV gp CO Ne 8 To boot the HP UX operating system enter HPUX at the s0 prompt Example so V hpux d NOTE Ifthe partition fails to boot or if the server was shipped without Instant Ignition booting from a DVD that contains the operating system and other necessary software might be required Using the Checklist 70 The following checklist is an installation aid and should be used only after you have installed several systems using the detailed procedures described in the body of this manual This checklist is a compilation of the tasks described in this manual and is organized as follows PROCED
137. es the nPartition inactive This is the normal behavior on rx7620 servers with an ACPI configuration setting of default or single pci domain To make an inactive nPartition active use the MP BO command to boot the nPartition past the boot is blocked state 206 Operating System Boot and Shutdown Booting HP UX This section covers the following methods of booting HP UX HP UX Booting The standard ways to boot HP UX Typically this results in booting HP UX in multi user mode Single User Mode HP UX Booting How to boot HP UX in single user mode LVM Maintenance Mode HP UX How to boot HP UX in LVM maintenance mode Booting For details on shutting down the HP UX operating system see Shutting Down HP UX page 214 A CAUTION ACPI Configuration for HP UX Must Be default On nPartition capable HP Integrity servers to boot the HP UX operating system an nPartition must have its ACPI configuration value set to default At the EFI Shell interface enter the acpiconfig command with no arguments to list the current ACPI configuration If the acpiconfig value is not set to default HP UX cannot boot In this situation you must reconfigure acpiconfig or booting is interrupted with a panic when launching the HP UX kernel To set the ACPI configuration for HP UX at the EFI Shell interface enter the acpiconfig default command and then enter the reset command for the nPartition to reboot with the proper default configuration for HP U
138. es when finished using them To exit the EFI environment enter B Control B This exits the nPartition console and returns to the service processor Main Menu To exit the service processor enter X at the Main Menu 210 Operating System Boot and Shutdown Booting the Microsoft Windows Operating System ET You can boot the Windows Server 2003 operating system on an HP Integrity server by using the EFI Boot Manager to select the appropriate Windows item from the boot options list For details on shutting down the Windows operating system see Shutting Down Microsoft Windows page 215 CAUTION ACPI Configuration for Windows Must Be windows On nPartition capable HP Integrity servers to boot the Windows operating system an nPartition must have its ACPI configuration value set to windows At the EFI Shell enter the acpiconfig command with no arguments to list the current ACPI configuration If the acpiconfig value is not set to windows Windows cannot boot In this situation you must reconfigure acpiconfig or booting is interrupted with a panic when launching Windows To set the ACPI configuration for Windows at the EFI Shell enter the acpiconfig windows command and then enter the reset command for the nPartition to reboot with the proper windows configuration for Windows NOTE Microsoft Windows Booting on HP Integrity Servers The recommended method for booting Windows is to use the EFI Boot Manager menu to s
139. ese nisse eese nen 73 The Server Does Not Power OM aaae a a a enne he enne rrt esie ars esie aas ee eaaet esee tesa a 73 The Servet Powers On Then Shuts Off with a Fault Eight iicet ente 74 Cell Board Extraction Levers ccccciccossscstecuecsscceussesttcusssseccuebssdacuevsdeeveusssedewsessseveuscsdecueesseevevesssdeueos 74 HP Integuty rx 620 Server LED DtlieafoEtScs uentos epe EHE UE PD METER E epe IT 75 Front Panel LED nrnna na tete tee eov te e O eee deve diu eee eese eee wee dis vec e dev saves eee eges 75 Bulk Power Supply EBD eibi seed uet ex x m e pb Ce v vite ELLE FEN RR e abl t Ek o en 76 PCEX Power Supply LEDS sass tier deemed aeo eder stop dq M TEER NU B Eai 77 oystem and PCLO E amnmbBbcaresr tede hype tre tere E RERO vere br RR WE eH Mex QU PATE RAE 78 OLS LED M CL e 79 PCI X OL Card Divider LEDS ccccccccececeseveveveveveveveveueveveveveveveueveveveueueueueueueueusueususueususueusususuens 80 Core JO TEEDS erent eect ey eet bb pete OE Oe eu 81 Gore TO BUttOftiss dut tos eee sut foc car so E e N A or fne cara eU stis 83 PCIEX Hot Pl g LED OL LEDS eerte net aia ree te pe a t ei e pea EE 84 Disk Drive LED neunana aa eee cete Cres ote ee ete eemes ote eros cel teet bee trees eee ve edos eb eei ee b etd 84 Server Management Subsystem Hardware Overview 5 erteilen ovv er beide aiettens 85 Server Management Overview ceca ign verto pee av ws NU EATE dup e dete DOR Ke e poa te Uer M Eee 86 server
140. ese steps a Logusers off the LAN and power off the server b Extend the server out of the rack and remove the top cover c Simplify the server to the minimum configuration The minimum configuration consists of the following e One cell e Two processors e One quad of memory DIMMS size 256 MB or larger e One MP SCSI card e One LAN SCSI card e System backplane e PCI X backplane e One BPS e Two PCI power modules e Two power cords Remove all third party options and reinstall each one one at a time checking the server after each installation Replace the top cover and reconnect the power cord and other cables Boot the server If it does not function properly see the procedures in the following section The Server Does Not Power On To check for power related problems follow these steps Common Installation Problems 73 1 Checkeach BPS LED The LED is located in the lower left corner of the power supply face Table 5 3 shows the states of the LEDs A yellow LED indicates that the line cord connections are not consistent with the pwrgrd settings 2 Verify that power is making it to the server and that the power lines are properly connected to the chassis The Server Powers On Then Shuts Off with a Fault Light Use this checklist to check for the following problems when the server powers on and then off 1 Ensure that a conductive item has not been dropped or left inside the server chassis 2 Checkthe connections on all b
141. esent If a carton has been mishandled or accidentally dropped the tilt indicator indicates missing beads If damage is found document the damage with photographs and contact the transport carrier immediately Examine the server cabinet for visible shipping damage After unpacking the cabinet check for damage that might have been obscured by the shipping container If damage is found after visual inspection document the damage with photographs and contact the transport carrier immediately If the equipment has any damage a damage claim form must be obtained by the customer from the shipping representative The customer must complete the form and return it to the shipping representative NOTE The server might come already racked or ready for rack installation Unpacking a Racked Server A A This section contains information about unpacking the cabinet WARNING Wear protective glasses while cutting the plastic bands around the shipping container These bands are under tension When cut they can spring back and cause serious eye injury NOTE Position the pallet to allow for enough space to roll the cabinet off the pallet before unpacking To remove the cabinet follow these steps 1 Cut the polystrap bands around the shipping container 2 Lift the cardboard top cap from the shipping box See Figure 2 1 Unpacking a Racked Server 31 3 Remove the corrugated wrap from the pallet 4 Remove the packing mat
142. ess at the HPUX EFI interface the HP UX Boot Loader prompt HPUX gt entering the boot is vmunix command For required configuration details see ACPI Configuration for HP UX Must Be default page 207 1 Access the EFI Shell environment for the nPartition on which you want to boot HP UX in single user mode Login to the service processor MP or GSP and enter CO to access the console list Select the nPartition console When accessing the console confirm that you are at the EFI Boot Manager menu the main EFI menu If at another EFI menu select Exit from the sub menus until you return to the screen with the EFI Boot Manager heading From the EFI Boot Manager menu select the EFI Shell menu option to access the EFI Shell environment Access the EFI System Partition sX where X is the filesystem number for the device from which you want to boot HP UX When accessing the EFI System Partition for the desired boot device issue the HPUX command to invoke the EFI HPUX HPUX EFI loader on the selected devive Boot to the HP UX Boot Loader prompt HPUX gt by pressing any key within the ten seconds given for interrupting the HP UX boot process You will use the HPUX EFI loader to boot HP UX in single user mode in the next step After you press a key the HPUX EFI interface the HP UX Boot Loader prompt HPUX gt is provided For help using the HPUX EFI loader enter the help command To return to the EFI S
143. ew two to three turns until all screws are secure NOTE The processor screws do not need to be torqued The processor is properly secured when the screws reach the bottom on the socket frame Tighten the four captive screws on the power pod in an X pattern until secure Connect the turbo cooler fan cable to the cell board connector 148 Removing and Replacing Components 12 Reconnect the CPU power cable to the cell board connector 13 Replace the processor cover and tighten the captive screws ET NOTE New cell boards housing the new IPF processors will require new air baffles For more information see Installing the VRM Cover AB388 00002 and Door Opener AB388 00003 page 144 14 Position the DIMM cover in place 15 Tighten the four captive screws to secure the DIMM cover 16 Install the cell board in the server 17 Replace covers 18 Power on the server 19 Power on the nPartition See Appendix D Installing Dual Core CPUs A9767A ET There are three additional components required when replacing a CPU with a dual core CPU If only one CPU module is installed on the cell board a terminator must be installed in CPU socket 2 e Dual core CPU A9767 04012 e Sequencer fan assembly A9767 04007 e CPU cover All CPU sockets must be empty before proceeding CAUTION Avoid removing any VRMs to connect the CPU power pod and turbo cooler cables into the cell board connectors NOTE CPU load or
144. floors Special precautions are necessary if the computer room is near a source of air pollution Some air pollutants especially hydrogen sulfide are not only unpleasant but corrosive as well Hydrogen sulfide damages wiring and delicate sound equipment The use of activated charcoal filters reduces this form of air pollution Metallic Particle Contamination Metallic particulates can be especially harmful around electronic equipment This type of contamination can enter the data center environment from a variety of sources including but not limited to raised floor tiles worn air conditioning parts heating ducts rotor brushes in vacuum cleaners or worn printer components Because metallic particulates conduct electricity they have an increased potential for creating short circuits in electronic equipment This problem is exaggerated by the increasingly dense circuitry of electronic equipment Over time very fine whiskers of pure metal can form on electroplated zinc cadmium or tin surfaces If these whiskers are disturbed they can break off and become airborne possibly causing failures or operational interruptions For over 50 years the electronics industry has been aware of the relatively rare but possible threat posed by metallic particulate contamination During recent years a growing concern has developed in computer rooms where these conductive contaminants are formed on the bottom of some raised floor tiles Although this problem
145. g the SuSE Linux Enterprise Server Operating System sss 213 Shutting Down HP UX NO 214 Shutting Down Microsoft WIDdOWS uere eex ta tes ned eon eee eo eoo ee eee On Reo a Een AR o ou 215 Shutting Dow LINUX its ceci e ey vce taie E PR ERE OQ E re dive ta ves E Ke EX NERA ERU NEA EN OB EX MORS VEN Ex MUERE ERN XR RA 216 Site Preparation Glossary c aeri oi tte tico im Eel i aie reli atus 219 afe S RT RENDIR 221 8 Table of Contents List of Figures 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 1 10 1 11 1 12 2 1 2 2 2 3 2 4 2 5 2 6 2 7 2 8 2 9 2 10 2 11 3 1 3 2 3 3 3 4 3 5 3 6 3 7 3 8 3 9 3 10 3 11 3 12 3 13 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 4 10 4 11 4 12 4 13 4 14 5 1 HP Integrity 1x 620 Server left front VIEW aito quare peti ta Rep p era v vite ex ER ERR ER PIENE 17 HP Integrity rx7620 Server without front bezel riesen thread eto ener oh 18 System Backplane Block DISPrati usu eap te Na etd s rea tepidis ese neta DEM e aS Rafa 19 PCI X Board to Cell Board Block Diagr tn unt rerdterrtRe t netbot op Hio epu hern entire ebd ek Ho ge 20 HP Integrity 1x 620 Server 8 Socket Block Diagratu enter etre veio pter erae or re erri Red 21 Cell Boardz nee eret sad 22 Memory SubSsVSEettlst ce auteti tasa e Eee sati veto dax Mute Pair AUR Ine T ee HEAR aden A eE E RR IM UU ta ove EA Meo ERN RU 23 CPU Locations om the Cell Board iet ete leeeleet tette besect cedente cs beeece oda I vebe eh 24
146. ge the boot options list for each nPartition either by using the bc g command at the EFI Shell or by using the Add a Boot Option Delete Boot Option s and Change Boot Order menu items at the EFI Boot Option Maintenance menu To set boot options from HP UX use the setboot command e Autoboot Setting You can configure the autoboot setting for each nPartition either by using the autoboot command at the EFI Shell or by using the Set Auto Boot TimeOut menu item at the EFI Boot Option Maintenance menu To set autoboot from HP UX use the setboot command e ACPI Configuration Value HP Integrity Server OS Boot On nPartition capable HP Integrity servers you must set the proper ACPI configuration for the OS that will be booted on the nPartition To check the ACPI configuration value issue the acpiconfig command with no arguments at the EFI Shell To set the ACPI configuration value issue the acpiconfig value command at the EFI Shell where value is either default windows or single pci domain For the setting to take effect reset the nPartition by issuing the reset EFI Shell command System Boot Configuration Options 205 The ACPI configuration settings for the supported operating systems are in the following list HP UX ACPI Configuration default On nPartition capable HP Integrity servers to boot or install the HP UX operating system an nPartition must have its ACPI configuration value set to default For details see ACPI C
147. ghten the two screws Replace the common tray cage cover Tighten the captive fastener on the common tray cage cover Attach the front panel cable to the system backplane Attach the DVD power cable Attach the data cable Replace the front bezel and the top and left side covers Follow proper procedures to power on the server 168 Removing and Replacing Components Figure 6 71 Front Panel Board Cable Location on Backplane Front Panel Board Connection System Backplane Removing and Replacing the PCA Front Panel Board 169 170 A Parts and Accessories Table A 1 HP Integrity rx7620 Server Field Replaceable Unit FRU List FRU Description Replacement Part Number Exchange Part Number 36 GB 15K RPM SCSI Disk A9896 64001 A9896 69001 73 GB 15K RPM SCSI Disk A9897 64001 A9897 69001 146 GB 10K RPM SCSI Disk A9898 64001 A9898 69001 1 GB DIMM single A6098AX A6098 69001 2 GB DIMM single A6100 67001 A6100 69001 256 MB DIMM single A6802AX A6802 69001 512 MB DIMM single A6097AX A6097 69001 AC cord retention bracket A6752 00123 None AC Power Supply qty 2 per system 0950 4173 A6752 69113 Adaptor SCSI A6093 00239 None Anti tip Foot A6752 67042 None Assembly Cell PDH Riser 1 5GHz Madison Processor A6913 67003 None Assembly Cell PDH Riser 1 3GHz Madison Processor A6913 67004 None Assembly Cell PDH Riser 1 1GHz Hondo Processor 46913 67008 46913 69008 Assembly Cell
148. hardware power off when the OS is halted or to have the nPartition be made inactive all cells are in a boot is blocked state The normal behavior for Red Hat Linux or SuSE Linux Enterprise Server shutdown and halt is for the nPartition be made inactive For details see ACPI Softpowerdown Configuration OS Shutdown Behavior page 206 Procedure D 10 Linux Shutdown From the command line for Red Hat Linux or SuSE Linux Enterprise Server issue the shutdown command to shut down the operating system 1 Login to Linux running on the system you want to shut down 2 Issue the shutdown command with the desired command line options and include the required time argument to specify when the operating shutdown is to occur For example shutdown r 20 will shutdown and reboot the system starting in twenty minutes Shutting Down Linux 217 218 Site Preparation Glossary A B Apparent power ASHRAE Standard 52 76 ASL board Btu h C CFM Chilled water system CompactPCI D K Dehumidification Derate Downflow EIA unit Humidification Inrush current KVA LN Latent cooling capacity Leakage current Maximum input current NEBS A value of power for AC circuits that is calculated as the product of RMS current times RMS voltage without taking the power factor into account Industry standard for air filtration efficiency set forth by the American Society of Heating Refrigerating and A
149. he continuation of a code example Separates items in a list of choices A warning calls attention to important information that if not understood or followed will result in personal injury or nonrecoverable system problems A caution calls attention to important information that if not understood or followed will result in data loss data corruption or damage to hardware or software This alert provides essential information to explain a concept or to complete a task A note contains additional information to emphasize or supplement important points of the main text You can find other information on HP server hardware management and diagnostic support tools in the following publications HP Technical Documentation Website http www hp com go Integrit Servers docs Windows Operating System Information Find information about administration of the Microsoft Windows operating system at the following website http www microsoft com technet Diagnostics and Event Monitoring Hardware Support Tools Complete information about HP hardware support tools including online and offline diagnostics and event monitoring tools is on the HP website at http www docs hp com HP UX dia Website for HP Technical Support http h20219 www2 hp com services cache 126868 0 0 225 121 html jumpid reg R1002 USEN Books About HP UX Published by Prentice Hall You can find the entire Prentice Hall Professional Series on HP at h
150. he two screws taped to the ramp to attach the ramp to the pallet Carefully roll the server off the pallet and down the ramp Locate the caster covers NOTE The caster covers are designed to fit on either side of the server Insert the slot on the caster cover into the front caster Secure the cover to the server by tightening the captive screw on the cover at the rear of the server 44 Installing Additional Components Figure 3 6 Securing Each Caster Cover to the Server Caster Cover Rear Casters MWK006 3 11 03 17 Wheel kit installation is complete when both caster covers are attached to the server and the front bezel and all covers are installed Figure 3 7 Completed Server PCI X Card Cage Assembly I O Cards A number of PCI and PCI X I O cards are supported in the HP Integrity rx7620 Server Known cards supported at the release of this guide are shown in Tables 3 3 through 3 6 Table 3 3 HP Integrity rx7620 Server HP UX Supported I O Cards A5158A Number of Cards Supported Card Description B Bootable PCI 1 port 2x Fibre Channel 15 A6795A PCI 2 GB Fibre Channel 15B PCI X Card Cage Assembly I O Cards 45 Table 3 3 HP Integrity rx7620 Server HP UX Supported I O Cards continued Part Number Card Description Number of Cards Supported B Bootable AB378A P
151. hell enter exit fs0 gt hpux c Copyright 1990 2002 Hewlett Packard Company All rights reserved HP UX Boot Loader for IA64 Revision 1 723 Press Any Key to interrupt Autoboot efi hpux AUTO gt boot vmunix Seconds left till autoboot 9 User Types A Key to Stop the HP UX Boot Process and Access the HPUX EFI Loader Type help for help HPUX gt Booting HP UX 209 5 At the HPUX EFI interface the HP UX Boot Loader prompt HPUX gt enter the boot is vmunix command to boot HP UX the stand vmunix kernel in single user is mode HPUX gt boot is vmunix System Memory 4063 MB loading section 0 Wu rema eeu une caduta um ue hse eiut dares van Meme rare complete loading section 1 muda ates complete loading symbol table loading System Directory boot sys to MFS loading MFSFILES Directory bootfs to MFS Launching stand vmunix SIZE Text 25953K Data 3715K BSS 3637K Total 33306K Console is on a Serial Device Booting kernel 6 Exit the console and service processor interfaces when finished using them To exit the EFI environment enter B Control B This exits the nPartition console and returns to the service processor Main Menu To exit the service processor enter X at the Main Menu IVM Maintenance Mode HP UX Booting You can boot HP UX in LVM maintenance mode by using the following procedure Procedure D 4 IVM Maintenance Mode HP UX Booting EFI Shell From the EFI Shell environment
152. hell enter the acpiconfig single pci domain command and then enter the reset command for the nPartition to reboot with the proper single pci domain configuration for Red Hat Linux 3 Use either of these methods to boot Red Hat Linux e Select a Red Hat Linux entry from the EFI Boot Manager menu To load the Red Hat Linux operating system at the EFI Boot Manager menu select its entry from the list of boot options Selecting a Linux entry from the boot options list boots the operating system using ELILO EFI loader and the e1ilo conf file Invoke the ELILO EFI Linux loader from the EFI Shell For details see Red Hat Linux Operating System Booting from the EFI Shell page 212 On a Red Hat Linux boot device EFI System Partition the full paths to the loader and configuration files are EFI redhat elilo efi EFI redhat elilo conf After selecting the filesystem for the boot device for example s0 you can invoke the Linux loader from the EFI Shell prompt by entering the full path for the ELILO EFI loader By default the ELILO EFI loader boots Linux using the kernel image and parameters specified by the default entry in the e1ilo conf file on the EFI System Partition for the boot device To interact with the ELILO EFI loader interrupt the boot process for example enter a space at the ELILO boot prompt To exit the ELILO EFI loader use the exit command Procedure D 6 Red Hat Linux Operating System Booting from the EFI Shell
153. hing the HP UX kernel To set the ACPI configuration for HP UX at the EFI Shell interface enter the acpiconfig default command and then enter the reset command for the nPartition to reboot with the proper default configuration for HP UX 3 At the EFI Shell environment issue the map command to list all currently mapped bootable devices The bootable filesystems of interest typically are listed as s0 s1 and so on 4 Access the EFI System Partition sX where X is the filesystem number for the device from which you want to boot HP UX For example enter 82 to access the EFI System Partition for the bootable filesystem number 2 Note that the EFI Shell prompt changes to reflect the filesystem currently accessed Also note that the filesystem number may change each time it is mapped for example when the nPartition boots or when the map r command is issued 5 When accessing the EFI System Partition for the desired boot device issue the HPUX command to invoke the HPUX EFI loader on the selected device The full path for the loader is EFI HPUX HPUX EFI and when invoked it references the EFI HPUX AUTO file and proceeds to boot HP UX using the default boot behavior specified in the AUTO file You are given ten seconds to interrupt the automatic booting of the default boot behavior Pressing a key during this ten second period stops the HP UX boot process and enables you to interact with the HPUX EFI loader
154. hp com Replace the top cover 10 Connect all cables to the installed PCI card DVD RW Installation Instructions The CD DVD DAT is located in the front of the chassis You must remove the system power to this component before attempting to remove or replace it See Shutting Down nPartitions and Powering Off Hardware Components page 96 To install the DVD RW drive follow these steps CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server 1 2 Remove the front bezel and top cover See Removing and Replacing the Front Bezel page 99 and see Removing and Replacing the Top Cover page 99 Remove the drive bay blank or removable media drive Installing Additional Components we Figure 3 9 Removable Media Bay Location Verify that the SCSI and power cables have the appropriate service length required IMPORTANT For the DVD RW installation the SCSI cable length must equal 1 5 inches 0 25 in The power cable length must equal 3 5 inches 0 25 in Figure 3 10 SCSI Cable Length y LB W D25 DVD RW Installation Instructions 51 Figure 3 11 Power Cable Length 4 Disconnect the three SCSI cables from the Mass Storage Backplane MSBP Drape the disconnected cables over to the side of the chassis If the removable media bay power cable and the corresponding SCSI
155. iagnostic Support Tools Manager STM exerciser 98 Removing and Replacing Components Removing and Replacing the Front Bezel Figure 6 1 Bezel Hand Slots Grasp here Removing the Front Bezel From the front of the server grasp both sides of the bezel and pull firmly toward you The catches release and the bezel pulls free Replacing the Front Bezel From the front of the server grasp both sides of the bezel and push toward the server The catches will secure the bezel to the chassis Removing and Replacing the Top Cover It is necessary to remove and replace one or more of the covers to access the components within the server chassis Removing and Replacing the Front Bezel 99 A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 2 Top Cover Removing the Top Cover To remove the top cover follow these steps Figure 6 3 Top Cover Retaining Screws 1 Loosen the retaining screws securing the cover to the rear of the chassis 2 Slide the cover toward the rear of the chassis 100 Removing and Replacing Components 3 Liftthe cover up and away from the chassis Replacing the Top Cover To replace the top cover follow these steps 1 Slide the cover into position It should easily slide into position Use a slow firm pressure to properly seat the cover 2 Tighten the retaining screws to secure
156. ic components can be caused by metallically conductive particles These metallic particles are conductive and can short circuit electronic components Use every effort to ensure that the environment is as dust and particulant free as possible Smaller particles can pass though some filters and over a period of time can cause problems in mechanical parts Small dust particles can be prevented from entering the computer room by maintaining its air conditioning system at a high static air pressure level Other sources of dust metallic conductive abrasive or microscopic particles can be present Some sources of these particulants are e Subfloor shedding e Raised floor shedding e Ceiling tile shedding These pollutants are not always visible to the naked eye Check the underside of the tiles to determine the presence of these pollutants The tile should be shiny galvanized and free of rust The computer room should be kept clean The following guidelines are recommended e Establish a no smoking policy Cigarette smoke particles are eight times larger than the clearance between disk drive read write heads and the disk surface e Locate printers and paper products in a separate room to eliminate paper particulate problems Environmental Elements 189 e Establish a no eating or drinking policy Spilled liquids can cause short circuits in equipment such as keyboards e Use a dust absorbent cloth mop rather than a dry mop to clean tile
157. ion Table 1 1 PCI X Slot Types continued 1 If the slot is used as a PCI slot either the 33MHz or 66MHz PCI frequency is supported If the slot is used as a PCI X 1 O Partition Slot Device 0 3 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 0 2 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 0 1 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 8 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 7 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 6 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 5 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 4 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 2 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot 1 1 PCI 33 or 66 MHz PCI X 66 or 133 MHz 64 bit 3 3V connector Hot Plug Slot slot either the 66MHz or 132MHz PCI X frequency is supported Detailed HP Integrity rx7620 Server Description Figure 1 5 HP Integrity rx7620 Server 8 Socket Block Diagram Detailed HP Integrity rx7620 Server Description Cell Board The cell board contains several hardwa
158. ir Conditioning Engineers Inc Above sea level A printed circuit assembly PCA Also called a card or adapter The abbreviation for British thermal units The amount of heat required to raise one pound of water one degree fahrenheit per hour a common measure of heat transfer rate The abbreviation for cubic feet per minute commonly used to measure the rate of air flow in an air conditioning system A type of air conditioning system that has no refrigerant in the unit itself The refrigerant is contained in a chiller which is located remotely The chiller cools water which is piped to the air conditioner to cool the space The newest specification for PCI based industrial computers is called CompactPCI It is electrically a superset of desktop PCI with a different physical form factor The process of removing moisture from the air within a critical space To lower the rated capability of an electrical or mechanical apparatus Refers to a type of air conditioning system that discharges air downward directly beneath a raised floor commonly found in computer rooms and modern office spaces The Electronic Industries Association EIA defines this unit of measurement to be 1 75 inches in height So then 1U equals 1 75 inches 1U equals 44 45 mm The process of adding moisture to the air within a critical space The peak current flowing into a power supply the instant AC power is applied This peak is usually much higher than the ty
159. irmware Update Tool for IPF 91 Enter the rpm command rpm i FWPHSS_28608 rpm Figure 5 14 rpm Output Preparing SESSSSSSESSSSSSISSSSSSSSSSSSSSSISSSSSSSSESS 1005 1 FWUPDATE B SSSSSSSSSSSSSSSSESSSISSSISZSSSSSSSSSSSSISSSSSSS 1005 Installing on Windows You must download and run an executable file in Windows Upon running the utility a setup wizard guides you through the installation steps To run the setup wizard follow these steps 1 Runthe executable file 2 Accept the terms of the agreement and click Next Figure 5 15 License Agreement itl System Firmware Update InstallShield Wizard License Agreement Please read the Following icense agreement carefully FOLLOW IF YOU AGREE TO THESE TERMS PLEASE CHOOSE THE ACCEPT OPTION LOCATED ADJACENT TO THE SCREEN WHERE HIS AGREEMENT IS DISPLAYED IF YOU DO NOT AGREE TO THESE LICENSE TERMS PLEASE CHOOSE THE I DO NOT ACCEPT OPTION AND DO NOT DOWNLOAD ANY SOFTWARE FROM THIS SITE greement To Contract Electronically You the Licensee and Compaq agree to contract electronically This means that when you choose the I ccept option with your mouse you acknowledge your agreement to E thaca tarme and conditione and that vor ara daina eo wath the intant ta Amp enna OEE PY EU EU rarer Pm Ra FH EP Fe ES Pod Ia o n Hn n nma rn nn C Ido net accept the terms in the license agreement Hes lira Bad 3 Carefully read the re
160. is the called the root cell Both cells are potential root cells The primary or default root cell in a single nPartition system is the bottom cell cell 1 An nPartition also called a protection domain is a cell or cells running the same operating system and sharing processes and memory space among the components Each nPartition must have one root cell and may have both The HP Integrity rx7620 Server has only two possible nPartition configurations single or dual The additional cell that can be part of the nPartition does not require I O links or MP SCSI core I O cards In the single nPartition case if two cells are present either cell may be the root cell assuming that both cells have MP core I O functionality present If only one cell is present that cell is the root cell and should be cell 1 In the dual nPartition case two cells required each nPartition consists of one cell and each cell must be a root cell The ability to interconnect two cells in one nPartition or isolate the cells in a dual nPartition system provides system configuration flexibility System partitioning is configured by the system Management Processor MP NOTE Partition configuration information is available on the HP website at http docs hp com For nPartitions details see the HP System Partitions Guide Administration for nPartitions Internal Disk Devices for the HP Integrity rx7620 Server 26 In an HP Integrity rx7620 Server the top inter
161. is uchadess Guns Bae E AREETA o ss eee in Guo Pod M ee ati neh sansa Dee ba eS 13 Typographie Conventions soerat teo ie r EE ob Hee val eio atta T Levade e eto ends 13 Related Documents E vetere vesc ood veles tege ete oot voee es te eee O ees 14 Contacting FID S eesa Te ene EH UR M WERE OU REEL iR eat cubes Me eiu EH pe DH 15 Before You Contact HP Jiu sine avete tet erecto uto eee ea tote deti danas etude d oto eee de eo une dta ce ie ea PER P o E ege 15 HPsContact InformiatiOn dex a t e x d het dese et ee EM d 15 Subscription Servicess esspyqte dte ei eni EE E qua dev Edd eL NA Epod uM e R e udo EIN A M ONE 15 Documentation Feedback eese eese eene nnne het E sese ie essa ates essa ae esas ttes sena tee 15 LR Introduction ERNEUT NORTON RES occas taetaa nets 17 OVER VIC d n 17 System PDaekplane eoe yy ou mesh oque cem pun baise a ppl dete spes cane wba t ete n a tere 18 System Backplane to PCI X Backplane Connectivity iiiter tte eie tete eese 19 klock and Resik nse seite clt tetti eee eite tops eee e tonto de ka dee eed EI qe tUe vede CE S Ue RA 19 TO SuDSV Sep etes RDUM oap nebat eode tve Pret o ubere pe Ui Lov ets put dU Det 19 Detailed HP Integrity 137620 Server Description o co epeccves p ones lt edet oper p ees e ipe gus 21 Cell Boatd unit eet tiet Deo e e vote telis emat le ei ev eta be cete eo b e eb ede 22 PDH Riser BOar T T E UT T UU TT E 23 Central Processor Units sis iscscesssdovesascsssesbsccoscsdecss
162. lacing d Side COVelo anemia ee mR ve aus eec Piel oY tease D Us tbt fu iiv cetus o UE 102 Removing and Replacing a Disk Drives n etie eei hid eet Getosteeavoncysn teo basa veo ety aeesa ti voee i ee Eee 103 Removing a Disk DEIyvess aede ri eee bei Ga es aE ARoS EER EEA EEEE VENEREE EE CENA S en M bx OR ETE EE eSEE AR ty 103 Replacing a Disk Drive eee or ed cugalia sees tete ge bor uada eser gutes up Mcst idu d ser UO dO NUN d US 104 Removing and Replacing a CD DVDIDAT Drive oer tr retta rp rrr rre Ee ERR a HERO Re wreaks 104 Removing a CD DV DIDAT DV esee terea ra orem een eyes etae eene eee aine us 105 Replacing a CDIDVD IDAT DEVO careret Res citta tre dh s ke etl e uses Co x ORE EN E REPE REN RR e DL 106 Removing and Replacing a Front Smart Fan Assembly sess 106 Removing a Front Smart Fan ASSembby opa ve ae eden a ag e ee EUR e UR er EU aod 107 Replacing a Front Smart Fan Assembly 2i ouo iustvese gu rette buns Re RV PRO tp Ie eP ERU 107 Removing and Replacing a Rear Smart Fan Assembly sss 108 Removing a Rear Smart l an ASSemb ly ined iio tione be Le beue EDO tte EQ LIEU D 109 Replacing a Rear Smart Fan Assembly tee hetero can test epee hype dees totus ees b e io ipea 109 Removing and Replacing a PCI Smart Fan Assembly etu tri mop pe o eo oii etum a EE eno 109 Removing a PCI Smart Fan Assembly eere rra ong rtg eere nk even yr aen ket e ete 110 Replacing a PCI Smart Pan ASSembly oo ie cete rt eei Mn tek e
163. lation type you want to use 8 Login to the MP when the login window appears Access to the MP using a web browser is now possible Verifying the Presence of the Cell Boards 66 To perform this activity either connect to the MP using a console or connect the CE Tool laptop to the RS 232 local port on the MP After logging in to the MP verify that the MP detects the presence of all the cells installed in the cabinet It is important for the MP to detect the cell boards If it does not the partitions do not boot To determine if the MP detects the cell boards follow these steps Cable Connections At the MP prompt enter cm This displays the Command Menu The Command Menu enables viewing or modifying the configuration and viewing the utilities controlled by the MP To view alist of the commands available enter he To see more than one screen of commands press Enter Use the Page Up and Page Down Keys to view the previous or next screen of commands To exit the Help Menu enter q From the command prompt MP CM enter du The du command displays the MP bus topology A screen similar to the following displays Figure 4 13 The du Command Screen MP CM gt du The following MP bus devices were found 4 4 4 4 4 4 4 i i iLANN Ni Sys IO i i iCabi MP iSCSI iBkpln iCellsiChassisi BPS iM SiB 1i 101 i i rO i
164. led 124 Removing and Replacing Components Figure 6 32 Locating the Mass Storage Backplane 6 Unscrew the two captive screws and remove the backplane bracket assembly Figure 6 33 Mass Storage Backplane Captive Screws Replacing the Backplane To replace a backplane follow these steps 1 Align the tabs on the backplane with the slots in the chassis and press the assembly into its mount 2 Fasten the two captive screws 3 Connect all the cables to the backplane Removing and Replacing the Mass Storage Backplane 125 4 Install the PCI side panel 5 Install the top and right side covers 6 Install all internal disks Removing and Replacing a Processor Turbo Cooler Fan The processor turbo cooler fans are located on the cell boards Removing a Turbo Cooler Fan To remove a turbo cooler fan follow these steps 1 Prepare an ESD safe work surface large enough to accommodate the cell board 2 Identify the partition and cell to be removed 3 Power off the nPartition and remove the cell with the fan to be replaced following the instructions found in Removing and Replacing a Cell Board VRM page 157 4 Place the cell board on the ESD safe work surface 5 If necessary loosen the four captive screws that secure the DIMM cover remove the cover and set it aside 6 If so equipped loosen the captive screws on the CPU cover remove the cover and set it aside 7 Identify the CPU turbo cooler fan to be removed a
165. lled and not active There is a single three color LED on each bulk power supply Troubleshooting Figure 5 3 BPS LED Locations ji BPS LEDs Table 5 3 BPS LEDs LED Indication Description Blinking Green BPS is in standby state with no faults or warnings Green BPS is in run state 48 volt output enabled with no faults or warnings Blinking Yellow BPS is in standby or run state with warning s present but no faults Yellow BPS is in standby state with recoverable fault s present but no non recoverable faults Blinking RED BPS state might be unknown non recoverable fault s present Red Not Used Off BPS fault or failure no power cords installed or no power to the chassis PCI X Power Supply LEDs There are three LEDs on the PCI X power supply Green and yellow LEDs follow OL operation A multi color LED reports warnings and faults HP Integrity rx7620 Server LED Indicators 77 System and PCI I O Fan LEDs 78 Figure 5 4 PCI X Power Supply LED Locations Attention Fault Power Table 5 4 PCI X Power Supply LEDs LED Driven By State Description Power Each supply On Green All output voltages generated by the power supply are within limits Off Power to entire system has been removed Attention MP through PCI Yellow For LED status in combination with the green power LED LPM for PCI X slot status see Table 5 9 Fault Each supply Flash Yellow The temperature within the power supply
166. ly to seat the DIMM into the memory slot Close the cover Tighten the retaining screws that hold the cover Replace the cell board into the chassis Replace the side cover To power on the cell board use the PS command To verify that all DIMMs are allocated use the IN ME command from the BCH prompt Removing and Replacing a Core I O Board The MP SCSI core I O board is located in the rear of the chassis There can be two MP SCSI core I O boards installed in the server core I O 0 and core I O 1 The core I O board can be replaced 160 Removing and Replacing Components while standby power is applied However the operating system on the nPartition must be shut down to replace this FRU A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 62 Core I O Location Rear View Fan 2 LED Removing a Core I O Board To remove a core I O board follow these steps 1 Saveall MP networking details including the IP address hostname subnet mask gateway and other information From the MP Command menu enter the LS command to display the current MP customer LAN interface status 2 To determine I O board status use the MP CM PS or the MP CM DE commands with option G See Figure 6 63 and Figure 6 64 Removing and Replacing a Core I O Board 161 Figure 6 63 PS Command MP CM ps Display detailed status
167. m are listed in order of recommendation e Underfloor air distribution system Downflow air conditioning equipment located on the raised floor of the computer room uses the cavity beneath the raised floor as plenum for the supply air Perforated floor panels available from the raised floor manufacturer should be located around the perimeter of the system cabinets Supply air emitted though the perforated floor panels is then available near the cooling air intake vents of the computer system cabinets e Ceiling plenum air distribution system Supply air is ducted into the ceiling plenum from upflow air conditioning equipment located in the computer room or from an air handling unit remote The ceiling construction should resist air leakage Place perforated ceiling panels with down discharge air flow characteristics around the perimeter of the system cabinets The supply air emitted downward from the perforated ceiling panels is then available near the cooling air intake vents of the computer system cabinets Return air should be ducted back to the air conditioning equipment though the return air duct above the ceiling e Above ceiling ducted air distribution system Supply air is ducted into a ceiling diffuser system from upflow air conditioning equipment located in the computer room or from an air handling unit remote Adjust the supply air diffuser system grilles to direct the cooling air downward around the perimeter of the computer
168. mand Description BO Boot a partition DF Display FRU Information of an Entity MA Return to Main Menu MR Modem reset PE Power entities on or off RE Reset entity RR Reset partition for reconfiguration RS Reset a partition SYSREV Returns all system revisions TC Send a TOC signal to a partition TE Broadcast a message to all users of the MP command handler WHO Display list of MP connected users Table 5 12 lists the server status commands Troubleshooting Table 5 12 Status Commands Command Description CP Display partition cell assignments HE Display the list of available commands LS Display LAN connected console status MS Display modem status PS Display detailed power and hardware configuration status Table 5 13 lists the server system and access configuration commands Table 5 13 System and Access Configuration Commands Command Description CA Configure asynchronous and modem parameters CC Initiate a complex configuration CG Generate ssl key pair and self signed certificate CP Display partition cell assignments DATE Set the time and date DC Reset parameters to default configuration DE Display entity status DI Disconnect remote or LAN console DFW Duplicate firmware DU Display devices on bus FW Firmware update utility ID Change certain stable complex configuration profile fields IF Display network interface informa
169. mber of phases 1 Maximum input current 12 amps Per line cord Maximum inrush current 30 A peak for 15 ms Per line cord Power factor correction gt 0 98 gt 0 95 At all loads of 50 100 of supply rating At all loads Of 25 50 of supply rating Ground leakage current mA lt 3 0 ma Per line cord Power Required 50 60 Hz Watts VA Comments Maximum Theoretical Power 3156 3220 See 1 below Marked Electrical Power 2640 12A 220 VAC see note 2 Typical Maximum Power 1989 2030 See note 3 1 Maximum theoretical power is used to describe input power at the AC input It is expressed in Watts and Volt Amps to take into account power factor correction The calculated sum is the maximum worst case power consumption for every subsystem in the server This number will not be exceeded by a properly functioning server for any combination of hardware and software 2 Marked electrical power is the input power measured at the AC input expressed in Volt Amps The marked electrical power is the rating given on the chassis label and represents the input power required for facility AC power planning and wiring requirements This number represents the expected maximum power consumption for the server based on the 176 System Specifications power rating of the bulk power supplies This number can safely be used to size AC circuits and breakers for the system 3 Typical maximum power is the input power measured at the AC input expressed in Watts and Volt
170. me Function name Line number Module errno UxWorks errno Error level Parameteri Parameter2 MP CM gt 3 4 5 162 Removing and Replacing Components FRI FEB 13 18 58 29 2084 tModel subReset 282 5 Crash Ux ffffffff Uxffffffff Label and remove all cables connected to the core I O board Loosen the two retaining screws securing the board to the chassis Securely grasp the handle on the board 6 Slide the board from the chassis Figure 6 65 Core I O Detail Replacing a Core I O Board To replace a core I O board follow these steps 1 2 Position the core I O board in the chassis The board slides easily into the chassis Use a slow firm pressure to properly seat the connection Tighten the two retaining screws securing the board to the chassis Connect the cables that were labeled and detached during removal of the core I O Reset the nPartition with the MP RR command This command stops the boot process at BIB and enables you to check the firmware revision of the new MP Update or backdate as needed Configure the network settings as outlined in the following section Configuring MP Network Settings After removing and replacing the core I O in the server configure the customer LAN network settings using the settings from the original replaced core I O To configure MP network settings use the MP Command menu s LC command To list the current MP network configuration use the LS c
171. mibly Installed cc iet e nein neto atenta brem 151 ZIF Socket Lock Unlock Peep Hole Lo6atori ete ese rodea tp eme eter rev erre Ege d aun 154 VRM Cover Imstalled ux tet eee ob tare eet ru eee n take EE ERR ee 155 Deor Opener Install d piii etl tess at ie eg etin tta dept eia to ek vea tete vta esae RM S BER Eia 155 VRM Cover and Door Opener Installed Lote IP Re EO e eT bet aaepe ese ER Lgs 156 VIRML Locations eve tee ore tcr derer eau desee cea gatas bao Suen Gad eed wade Hea aee ever Eve db Qe 157 Cell Board Detalil 4 5 2 o rete ceres eoo erre E ve wsada sevens vents ear rese E voL CERE EROS PERPE 158 Cell Board and DIMM Location one in ar n n eee nenne EE artes rase s arse nenas de 159 DIMM Removal and Installation Tools eese eene e nennen eene 160 DIMM Detail With Locations sseeeeeeseee eee eee nene nnne AA eris se eese se eee ssa ense e n 160 Core SFO E Rer lefu EE ORT NOR Em LE E 161 P5 Comit dtids nius t cts cr EI MILLE Dr EL LE PED ELI COE IE E aper 162 DE COMM ANG s dentes ee titer eec oce a beee de asa eiees et eei acabe vta ente Ae tau eeden ee och aepo a ee 162 Core TO Detall 5 tee tete ite leeeter o a a tee beeetesei evt avete ete ev aah Soter Eos 163 System Backplane Location cioe et raids n ER ete eai y ORA RO ep exque dr Ep adt 165 Sy Stent Back Plane INEMOV EM E 165 System Backplane Removed iu cete te t it eid HR Hn Se M der D TAEAE EEE Eei T EAA EEEREN 166 Front Panel Assembl
172. mponents Table 3 3 HP Integrity rx7620 Server HP UX Supported I O Cards continued Part Number Card Description Number of Cards Supported B Bootable AB465A PCI X 2 port 2 Gb FC 2 port 1 Gb Ethernet 15B AB290A PCI X 2 port 1000BT 2 port U320 SCSI 15B AD278A 8 port Terminal MUX 15 AD279A 64 port Terminal MUX 15 A5513A PCI 1 port ATM 155 Mb s MMF 15 J3525A 2 port Programmable Serial Interface PSI X 25 Frame 15 Relay SDLC A6748A PCI 8 port Terminal Multiplexer 15 A6749A PCI 64 port Terminal Multiplexer 15 A6386A Hyperfabric2 Fiber Adapter 4 Z7340A 8 port PCI ACC 16 Table 3 4 HP Integrity rx7620 Server Windows I O Cards Part Number Card Description Number of Cards Supported A7059A PCI Windows and Linux Ultra160 SCSI 6 A7060A PCI Windows and Linux 2 channel Ultra160 SCSI 6 A7173A PCI 2 Channel Ultra 320 SCSI Adapter 6 337972 B21 PCI X Smart Array P600 Serial Attached SCSI SAS 8 Controller A9890A PCI X SmartArray 6402 128 MB 8 A9891A PCI X Smart Array 6404 256 MB 8 AB287A 10 G NIC 4 AB232A PCI X 2 GB s FCA2404 Fibre Channel 8 AB466A PCI X 2 channel 2 GB s Fibre Channel 6 AB467A PCI C 1 channel 2 GB s Fibre Channel 8 AD167A Emulex 4 GB 8 AD168A Emulex 4 GB DC 6 A9900A PCI 2 port Windows Linux 1000Base TX 8 A9899A PCI 2 port Windows Linux 1000Base SX 8 A7061A PCI 1 port 1000Base T 8 A7073A PCI 1 port 1000Base SX 8
173. n 7 Lower the CPU module into the ZIF socket making sure it is held level to the board until the pins on the CPU engage with the ZIF socket ET NOTE The new CPU power pod is slightly hinged Ensure that the CPU assembly is level prior to lowering it onto the cell board 8 Using a 2 5 mm hex driver through the peep hole turn the ZIF socket lock unlock screw one half turn to lock the CPU into place A CAUTION Do not exceed one half turn clockwise when locking the CPU into the ZIF socket Damage to the ZIF socket will occur requiring the cell board to be replaced E NOTE Ensure that the ZIF socket is fully locked Use a 2 5mm hex wrench to lock the ZIF E socket Check that the CPU module housing is level and shifts slightly right when locking the ZIF socket 9 Push the load sequencer away from the fan 10 Tighten the four CPU module screws in an X pattern turning each screw two to three turns until all screws are secure ET NOTE The processor screws do not need to be torqued The processor is properly secured when the screws reach the bottom on the socket frame 11 Alternately tighten the two power pod screws until secured Ensure that the entire CPU module is seated level in the cell board 154 Removing and Replacing Components ET 12 13 14 ET 15 16 17 NOTE Do not overtighten the screws Damage can occur to the cell board Connect the turbo cooler fan cable to the
174. n for the IMP 2 iii tede cette ethics tu ei ade OUI RENT ER EVE ERR 63 Accessing the MP Using a Web browsers ite eH oeaiqub t eeds Pto cule beatae bo Ores qdeed 65 Verifying the Presence of the Cell Boatcds d ste meet dvnse abou vance valdc etae oon 66 System Console Selecon oiii to oe eru Sete e eu nsu cote teat ab PEL Ieri EDU 67 VGA Consoles tremere tot edes eere tege fee eee tee bled pe tee ve ees veeto dete deese es udtose so eese et veto reti dee de Si NDS 68 Interface Differences between Itanium Based Systems aeree elec irt et d 68 MEPGonsoleS 44 2 15 208 cee exte vete ete teak vt oee ee teslis odi oed soul ics enr tse cabo imul cs ctae 68 Other Console Typesisucteoe dodenus tco ue erai eidem i obere ES 68 Additional Notes on Console Selection cccccccccccccsssesseeececececeaueaseececececeuueaeeeseeceseseauaaneseeeeeees 69 Booting the HP Integrity rx7620 Server a ase tu e n t e WI Ri ve E EO VEI DNA READ dr ue be ORA eee 69 Selecting a Boot Partition Using the MP oie uet b eeo e deabopucedetataee s quiete Rer eode pe Sei dedt 69 Verifying the System Configuration Using the EFI Shell 5 eio reet rr oie testo cedes 70 Booting HP UX Using the BEL Shell oce erre eant rene rer taie eere et R 70 Using the C heckligb o3 scope te veta tube tue dcc Wesce atr au MR eii 70 5 IroubleshioGllrigus tti os EQ PUtub RU RARE DIN Ren a WORT Mb BUE 73 Common Installation Problems sees eee eene nennen nnssee nh ese ense s
175. n result in damage to the server we IMPORTANT The SCSI parameters and the real time clock data stored in NVRAM are lost when the cell board is removed Make a note of all SCSI parameters before removing power from the cell board For more information see Matterhorn Service Note A6093A 07A Figure 6 37 Cell Board Location Cell Board 0 Cell Board 1 128 Removing and Replacing Components Removing a Cell Board Figure 6 38 Cell Board Detail A NOTE The cell board weighs 27 8 Ib Support both side edges while removing the cell board from the chassis To remove a cell board follow these steps 1 Power off the cell board using the MP command menu PE command 2 Remove the right side cover 3 Verify that the power LED located on the left side of the cell board is off before removing the cell board Figure 6 39 Cell LEDs Power LED 4 Press each extraction lever and move the slide to the unlocked position Removing and Replacing a Cell Board 129 5 6 7 Figure 6 40 Extraction Lever Unlocked Position Pull out on each lever to unseat the cell board Slide the cell board from the chassis Follow proper procedures to remove and replace all FRUs on the cell board Replacing a Cell Board AA NOTE The cell board weighs 27 8 Ib Support both side edges while replacing the cell board into the chassis To replace a cell board follow these steps 1 2 Move the slide to th
176. n the PCA front panel from the slots on the common tray cage Removing and Replacing the PCA Front Panel Board 167 11 12 13 14 Gently pull the cable and handle toward the rear of the chassis until the steel power button that was initially protruding though the chassis clears the hole Rotate the top edge of the board toward you about 30 degrees by lifting on the handle with your left hand Angle the board such that the right side with the cable moves away from you and the opposite side with the power connector moves toward you Ensure that the power switch does not get stuck in one of the many holes in the front of the chassis This rotation is best accomplished by gently pulling the cable with your right hand toward the rear of the cabinet Remove the cable end of the board first by gently pulling the cable with your right hand and adjusting the angle of the board with your left hand After the first tab on the board is outside the cavity removal should proceed easily Figure 6 70 Front Panel Board Detail 2 SENS P es Replacing the Front Panel Board To replace the front panel board follow these steps Slide the front panel into its slot from inside the server Angle the board so that the right side is at an angle Ensure that the power switch does not get caught in one of the many holes in the front of the chassis Push the panel forward until the lock tabs click Attach the front panel bezel and ti
177. n the cell board The system power to cell board that contains the DIMMs must be removed before attempting to remove or replace a DIMM For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 59 Cell Board and DIMM Location DIMMs Removing a DIMM To remove a DIMM follow these steps Remove the right side cover Remove the cell board Place the cell board onto a flat ESD safe work surface Loosen the captive screws that secure the DIMM cover Remove the cover to gain access to the DIMMs Identify the defective DIMM using Figure 6 61 to aid with DIMM location on the cell board Using both DIMM removal tools place the grooved side of each tool on each side of the target DIMM SX gx Ur ep N a Removing and Replacing a DIMM 159 8 Figure 6 60 DIMM Removal and Installation Tools A DIMM Installer Tool DIMM Removal Kit A5201 68003 A5201 68005 Seat the tool tips down to the limit then leverage connector latches outward to unseat the DIMM from the memory slot Figure 6 61 DIMM Detail With Locations Replacing a DIMM To replace a DIMM follow these steps 1 2 SND PP amp Orient the replacement DIMMs connector key over the memory slot Using the DIMM installer tool press downward even
178. n to the Password prompt re enter Admin lt ctrl enter gt 3 To reach the Main Menu enter Admin lt ctrl enter gt Afterwards the M will not return when the enter key is pressed The issue will return if the MP is reset through the modem Server Management Overview 86 Server management consists of four basic functional groups e Chassis management e Chassis logging e Console and session redirection e Service access Chassis Management Chassis management consists of control and sensing the state of the server subsystems e Control and sensing of bulk power e Control and sensing of DC to DC converters e Control and sensing of fans e Control of the front panel LEDs e Sensing temperature e Sensing of the power switch e Sensing chassis intrusion e Reading FRU PROMS Chassis Logging Chassis logging consists of maintaining logs of chassis codes e Boot codes e Activity codes e Error codes Console and Session Redirection Console and session redirection enables the console and session terminals to be connected over RS 232 a modem or a LAN connection web console Service Access Service access allows access to and control of the server state Service access is secured by a password Service access functions include e Access to chassis logs e Configuration of partitions e Control for online addition and replacement e Access to the virtual front panel e Transfer of control and reset Troubleshoo
179. nagement Processor MP 61 management processor MP 85 mass storage backplane 27 167 173 175 MP login name 63 password 63 MP Management Processor logging in 62 powering on 62 MP core I O 19 26 27 28 60 61 MP network name 63 MP SCSI 19 27 28 60 61 160 161 163 166 173 removing and replacing 160 161 163 166 MR 89 MS 88 N ND 89 noise emission specifications 178 null modem cable connectivity 62 part number 62 O operating environment 177 P password MP 63 PCI backplane 18 19 27 116 123 PD 89 PDC Processor Dependent Code 69 PDH riser board 23 PE 89 Platform Dependent Code PDC 85 power 98 applying cabinet 69 cabinet switch 69 housekeeping 62 69 power cords 176 power distribution hardware 183 power distribution safety grounding 183 power distribution system distribution hardware 183 power quality 182 power requirements component 176 power system protection 182 power wiring 183 processor installation 148 screw torque 148 Processor Dependent Code PDC 69 PS 88 PWRGRD 89 R raised floor ground system illustrated 185 RE 89 Reflection 1 61 69 RL 89 Ronl Lifter 35 RR 89 RS 89 RS 232 85 RU 89 S safety considerations 96 serial display device connecting 61 62 recommended windows 69 setting parameters 61 server 85 configuration 85 management 85 management commands 89 management overview 86 status c
180. nal disk drives connect to cell 1 through the core T O for cell 1 Both of the bottom disk drives connect to cell 0 through the core I O for cell 0 The CD DVD DAT drive connects to cell 1 through the core I O card for cell 1 Figure 1 10 Internal Disks DVD CD DAT Path 1 0 0 3 1 Drive 1 1 Path 1 0 0 3 0 6 Drive 1 2 Path 1 0 1 0 0 1 1 6 Drive 0 2 Path 0 0 0 3 0 5 z V steeoogeeeers L i Drive 0 1 ao m o arre ELLE Path 0 0 0 3 0 6 Introduction MP SCSI Core I O Board The HP Integrity rx7620 Server accommodates two sets of MP SCSI core I O functionality Each MP SCSI core I O board set consists of a MP SCSI board and a Procurium LAN SCSI board At least one MP SCSI board is required independent of partitions An additional MP SCSI board can be added as well and is required in a dual partition system Both MP SCSI core I O boards are oriented vertically and plug into the system backplane The MP SCSI core I O board incorporates a dual channel Ultra160 SCSI controller and is hot pluggable Procurium LAN SCSI Board At least one Procurium LAN SCSI board is required for the minimum system configuration two are required in a dual partition system The Procurium board is a standard PCI form factor card with PCI card edge connectors The PCI X backplane has one slot location reserved for the required Procurium board and another that can accommodate either a Procurium board or any other supported add in PCI X
181. nd remove all power cables Remove the side covers Extend all cell boards approximately four inches from system connectors Extend core MP SCSI I O board s approximately 1 5 inches from system connectors Label and disconnect all cables connected to the system backplane Remove hard attach brackets Support the system backplane and loosen the Jack screw until the system backplane releases from the chassis Tilt the backplane back to a 45 degree angle and lift it out from the hinged bottom Replacing the System Backplane To replace the system backplane follow these steps 1 Position the system backplane at a 45 degree angle in the chassis Align tabs at the bottom of the backplane with the slots on the bottom of the chassis Tilt the backplane forward until it is resting against the chassis Tighten the Jack screw NOTE Watch for system board flex Overcompression will break the board and render it useless Install the hard attach brackets Reconnect all cables on the system backplane Reconnect core MP SCSI I O board s Reconnect all cell boards Replace the side covers Power on the server 166 Removing and Replacing Components Removing and Replacing the PCA Front Panel Board The front panel board is located in the front of the chassis You must remove all system power before attempting to remove or replace this component A CAUTION Observe all ESD safety precautions before attempting this procedure Fail
182. nd unplug the fan power cord from the cell board 8 Insert a screwdriver or pen between the fan blades and gently depress the two amber tabs underneath Once the two tabs are depressed the fan pops up See Figure 6 34 126 Removing and Replacing Components A NOTE There are two different heatsinks used in the turbo cooler fan assemblies The removal and replacement procedure is essentially the same for the two The machined heatsink has thicker fins and is one piece The other heatsink has fins that are thinner and soldered to a base piece The machined heatsink has a clip holding the power cable in place that cannot be removed The soldered heatsink has a clip that must be removed in order to correctly route the cable See Figure 6 35 and Figure 6 36 On the machined heatsink note the fan power cable routing and unhook the fan power cable from the clip on the heatsink fin Care should be used not to break the clip On the soldered heatsink note the power cable routing and remove the clip by sliding it up and off the heatsink fin Remove the power cable from the clip and set the clip aside Replacing a Turbo Cooler Fan To replace a turbo cooler fan follow these steps 1 2 Position the new fan with the power cable routed toward the clip Seat the replacement fan in the turbo cooler by pressing down on the center of the fan You should hear a snap when each of the two tabs engages Route the cable carefully through
183. nectone end of a null modem cable 9 pin to 9 pin Part Number 5182 4794 to the M cable connector labeled CONSOLE 2 Connect the other end of the RS 232 cable to the CE Tool Standby Power and Logging In to the MP After connecting the serial device it is possible to log in to the MP Housekeeping power also known as standby power is generated as soon as AC power is applied to the server Because the MP uses standby power it is possible to log in to the MP even when the power switch is in the OFF position The power switch is a DC power switch that controls 48V DC Before powering on the HP Integrity rx7620 Server for the first time follow these steps 1 Verify that the AC voltage at the input source is within specifications for each server being installed 2 If not already done so power on the serial display device The preferred tool is the CE tool running Reflection To power on the MP set up a communications link and log in to the MP follow these steps 1 Connect the server to AC power On the front of the HP Integrity rx7620 Server a solid green Standby Power LED a solid green MP Present LED and a flashing amber Attention LED illuminates after about 30 seconds Figure 4 7 Front Panel Display Attention Remote Standby Power Men o Fault MP Present Power 2 Check the bulk power supply LED for each BPS When on the breakers distribute power to the BPSs AC power is present at the
184. ng a non racked system shown in Figure 2 5 If no lifter is available install the lift handle panels provided with the system Unloading With a Lifter To unload the server from the pallet using a lifter follow these steps A WARNING Use caution when using a lifter Because of the weight of the server it must be centered on the lifter forks before raising it off the pallet to avoid injury Never extend more than one server from the same cabinet while installing or servicing another server product Failure to follow these instructions can result in the cabinet tipping over Figure 2 5 RONI Lifter 1 Follow the instructions on the outside of the server packaging to remove the banding and carton top from the server pallet Unpacking a Non Racked Server 35 Figure 2 6 Server With Shipping Box Removed MWK0O1 31903 1 Remove all cartons from the pallet leaving only the server 2 Remove the two foam cushions for lift access as shown in Figure 2 7 Figure 2 7 Remove Cushions for Lift Access a Clearance for Ronl lift is Remove Cushions x 3 Insert the lifter forks under the server 4 Carefully roll the lift forward until it is fully positioned against the side of the server 5 Slowly raise the server off the pallet until it clears the pallet cushions 36 Unpacking the Server Figure 2 8 Raising a Server Off the Pallet 6 Roll the lifter and server away from the pallet Do not raise the server any highe
185. ning System Guidelines esie dis eerte ia heteete leet sre Cette lets dest Ee eto ha 187 Air Conditioning System Types codes ist DLE One ERE NP meinem es Y UAE 187 Basic Air Distribution SyStems osito iicet deii ebbe a veedta pluies o videt ots 188 Air Conditioning System Installation ure etr rt Rv RARE ieii aie ERES or EARS 189 Air Conditioning DUCtsc o usn Sieni ie fox i tne NE ua ge ear ae aes 189 H midity oo E 189 D ustand Pollution Control ote a e sette pe ceed eas bee aea ea eee 189 Metallic Particle Contamination ccccccccccccccccceccsscccecccsccssceusccssceeccssceuscesseuusecsseuuseesseuseesseunnsess 190 Electrostatic Discharee Prevention idest tannin ene arn ene 190 Static Protection Medas res ete teer tette tie ude cet etui dene rece pasetaustersudvestoutoss aaeain a ioiai 190 A COUSEICS A et eset etx ett nsec e abdo teo utere oS iets ell tite A tetee Nc Sodio detect nt 191 Facility Characteristics cede meg pee vaactl HEN Sea resta Eaa umet Uc ueste og i metu EN 191 ldraregareli e P 191 Raised Floor E adiNg e eNe iai 191 Floor Loading Term ives nu diea eredi pe Dr na A PR EX LR eR DELE LEM OMS 191 Average Ploordoadingsas eos dete ctetu sentiat tede ndr dp qu du du tei edite iid q stor ied 192 jenes 192 WALDO WS iio E cose Sed ane Foden tin t lese eceee es eee tuve Scant ved ue eeteves pee e eee code aede eee reveee eode ee vee sGeunlevd s 192 Space Requirements sua v aint anata VERO CE EO E
186. no deett a dtes tede vie esee E O a Gode vov acest ee Fein 80 PCIOCOET BEED LEOoCaLbOLS e etre o Ree vert eee ertet eere or ree vadee duds tre io Reb ve tows 81 Core VO Card Bulkhead LEDS nrama eec eee eere ee egeo eee ave eoa e eee eee aede eu egeo eu aee oue eps 82 Core I O Button Locations eese eee he enne hhemenne hee AE ais s N esee sess ETA sena eode 83 Disk Drive LED Eocatiof ue tereti e eb ee beet ex eis Ws e boe de Vide eg ene obe e vete ee epo edo Sees 85 Temperature States usate eue od tede du meme est EEES en pei nee iot dde teta died 87 Swinstall OUEDUES terree aa oe oed n eem her Rea seta num ht conu da ates gars E pras 91 swrenoye OUPU tacni cepi eite nes exerce eoe basate tuit uude But venden Gets tes ep Sea Ud ect re Spe uem 91 PU OUIDUE o ote tts e Pb bete t tested f boe etl Nvebossfbnd tut bor diet tiia ciat ts 92 License Agreement n uas mss te E an vetet Pom ar ESEA E qe vaa ea meo nda RS i EMI R aae 92 Informatuon S56reer teet erc es eet eese t em Gee eee eoe de wut ee eee El 93 SE LUD DLAC Sih M M 93 Bezel Mand SOs utc eb eee bby oe e eT ce eset tente 99 Top Covere een ar e tees depr t agus vb ded bo M aera etes MD NUBE MU BU 100 Top Cover Retaining OCTO WS usen reete ep arp Ens depu ta aH ROM MR 100 Side Cover Laca hone na a an eere ads Os te E ge tenere eee de ek oye voe ge exse E daa oye Eee 101 Side Cover Retaining SCr WS seirer a etas se eek e eine ee eestor tastes PAR OR
187. ns Three phase kVA V x A x 3 1000 e Single phase kVA V x A 1000 Formulas e kVA Voltage x Current amps e Watts VA x PF e BTU Watts x 3 41 Sample of an Installation Schedule The following schedule lists the sequence of events for a typical system installation e 60 days before installation Floor plan design completed and mailed to HP if required to be an HP task e 30 days before installation Primary power and air conditioning installation completed Telephone and data cables installed Fire protection equipment installed Major facility changes completed Special delivery requirements defined Site inspection survey completed Delivery survey completed Sample of an Installation Schedule 199 Asigned copy of the site inspection and delivery survey mailed to HP Siteinspection and predelivery coordination meeting arranged with a HP representative to review the inspection checklist and arrange an installation schedule e 7 days before installation Final check made with an HP site preparation specialist to resolve any last minute problems A NOTE Not all installations follow a schedule like the one noted above Sometimes a server is purchased through another vendor which can preclude a rigid schedule Other conditions could also prevent following this schedule For those situations consider a milestone schedule e Site Preparation schedule with the cu
188. nstallation CHecklisE ise eo id togeiod qua bp DUDi batde eR RE d PN aio 70 Ready Bit Safes e iex mde Dt ba ae bts ran due euius ttu d ctu Uo IQ TELE 75 Froot Panel UBL RM os Sack vee EE ET E E r A EN vevees 76 BES TEDE ette A a A EAEE TA d E O A a N A EAE ER S EEA 77 PCI X Power Supply LED siz oeste net ioon onirin adeno E SEE ETER nodal Dd E iai 78 Systenrand PCEDCO Fan LED Sei engeniaire eeen vv E Ee aa E ae s EEA E n Run Le dels e gig da 79 Cell Board OL LED Indicato Snina a A A N N Sat 80 Core TOLE Oeann a aaa a a a aa a aa aa a a a 82 Core IOPU a ET A T E E ET SE E ENE 84 OEE CEV SUE exci a a a a A ee E Mato E A 84 isk Drive EBIDS et Rer ec EE oa etn E E EET e TEM 85 MP Commands ener emere etes esee aa A eut eer eee der pe beer ode eee teet eere eee vr UTE eek eee TEES 88 Status Conmmarids s veal a cee hd ce i Sisters et deh e ENE tes pe oct oud Sal tle ates 89 System and Access Configuration Commands ocosudot oic RATIS Gal OI be SIRO EIN eek 89 Front Smart Fan Assembly LED Indicatioris pea aperte tite b qua ee t rtis 107 Rear Smart Fan Assembly LED Indicators uero rete adepto leas ode omn ek ote situe em 108 Smart Pan Assembly EBD Indications isisisi er tret Pe teen ee ue Bennet e REP RAI a init 110 PCIX Tower Supply BEBDSss eco pedo reet epite bn EN Db pute aero anaes 114 Processor Stepping COmpatlSODS sx ee rece rhs cess epe ertet e iei des epe I Weed ueri ll Rt 153 Default Configuration for MP Customer DAN interea tait ctu eit
189. nt Typical power consumption UZ Vapor seal Watt through Part 15 of their rules and regulations Even more stringent than the FCC Part 15 requirements Network Equipment Building Standards NEBS covers a large range of requirements including criteria for personnel safety protection of property and operational continuity The documents cover both physical requirements including Space Planning Temperature Humidity Fire Earthquake Vibration Transportation Acoustical Air Quality and Illumination and electrical criteria including Electrostatic Discharge ESD Electromagnetic Interference EMI Lightning and AC Power Fault Steady State Power Induction Corrosion DC Potential Difference Electrical Safety and Bonding and Grounding Abbreviation for Printed Circuit Assembly also referred to as a Printed Circuit Board PCB Currently the most popular local I O bus the Peripheral Component Interconnect PCI bus was developed by Intel and introduced in 1993 A consortium of companies involved in utilizing PCI for embedded applications The PCT Industrial Computer Manufacturers Group PICMG controls the PICMG specification The ratio of true power to apparent power in an AC circuit In power conversion technology power factor is used in conjunction with describing the AC input current to the power supply Root mean square rms refers to the most common mathematical method of defining the effective voltage or current of an
190. nted on the front surface of the chassis and two are mounted on the rear surface The two hot pluggable N 1 redundant DC bulk power supplies provide a wide input voltage range They are installed in the front of the chassis directly under the front fans A cable harness that connects from the rear of the BPSs to the system backplane provides DC power distribution Access to the system backplane is accomplished by removing the left side cover The system backplane inserts by a guide insertion mechanism using a single large jack screw assembly SCSI ribbon cable assemblies route from the mass storage area to the backside of the system backplane and to the Procurium PCI MP core I O card Cell boards are accessed from the right side of the chassis behind a removable side cover Introduction Figure 1 12 Left Rear View of HP Integrity rx7620 Server System backplane MP SCSI Core I O Power Connectors Server Description 29 30 2 Unpacking the Server ET HP shipping containers are designed to protect their contents under normal shipping conditions After the equipment arrives carefully inspect each carton for signs of shipping damage A tilt indicator is installed on each carton shipped The beads in the indicator will roll to the upper position if the container has been tilted to an angle that could cause equipment damage The tilt indicator itself has two windows and each window under normal conditions shows four beads pr
191. nued FRU Description PCA Mass Storage Backplane Replacement Part Number 46752 67003 Exchange Part Number None PCA MP SCSI Core IO A9918 67001 A9918 69001 PCA System Backplane A6752 60101 A6752 69011 PCI Filler Plate 5001 6892 None PCI Power Module Brick 0950 3819 A6093 69123 Power Cord C19 GB 1002 4 5m Black CA Assembly 8121 0070 None Power Cord C19 IEC 309 4 5m Black CA Assembly 8120 6897 None Power Cord C19 L6 20 4 5m Black CA Assembly 8120 6903 None Power Cord C19 unterminated International Europe 8120 6895 None Removable DAT Tape Drive DDS4 C5686 67204 C5686 69204 Removable DVD Drive A9879 67001 None 240 V N American UPS 4 5m C19 L6 30P 8120 8494 None Terminator Processor 46912 67001 None Static Mat size 24 x 36 w grnd strip 45201 68004 None 1 Cable assembly is part of the FRU 173 174 B System Specifications This chapter describes the basic server configuration and its physical specifications and requirements Dimensions and Weights This section provides dimensions and weights of the system components Table B 1 HP Integrity rx7620 Server Dimensions and Weights Standalone Packaged Height 17 3 in 43 9 cm 35 75 in 90 8 cm Width 17 5 in 44 4 cm 28 0 in 71 1 cm Depth 30 0 in 76 2 cm 28 38 in 72 0 cm Weight Pounds kilograms 220 Ib 100 kg N A The shipping box pallet ramp and
192. number from the first column of the FW table 2 Enter your user name 3 Enter account password 4 Enter the IP address of the anonymous FTP server where the firmware images reside 5 Enter the directory path For example dist versionX X orsome other location Do not list the actual firmware image filename 6a Enter the System Firmware filename pinn bin X X fh See Note 1 in this step 6b Enter the System Firmware filename s w X X X h See Note 1 in this step NOTE 1 X X X is the version number corresponding to the version of the System firmware on the other cells Example MP CM gt fw kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk KKKKK KkKKKK kkk kk Firmware Update Utility kk kk k KKKKK KkKKKK ERKEK C Copyright 2001 Hewlett Packard Company kk kkk KEKEN All Rights Reserved KK kk KKKKK KkKKKK kkk THIS PROGRAM IS NOT LICENSED TO CUSTOMERS kk kk KKKKK KkKKKK This program is intended for use by trained HP support Wee personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This ARK program is the property of HP EA KKKKK KkKKKK ke Version 4 00 EERE KKKKK KkKKKK kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkkkkkkkkkkkkkkkkkk kkkkkkxk Flash Current Number Cabinet Name Partition Handle Firmware Version Comments 1 1 0 MP 0 0 0 5 022 Master 1 2 0 MP 1 1 1 5 022 Slave 3 3 2 8 MP 0 0 32768 5 022 Master 3 4
193. oards 3 Checkthe system backplane for bent pins Cell Board Extraction Levers 74 It is important that both extraction levers on the cell board be in the locked position Both levers must be locked in order for the MP to recognize that the cell board is powered up and functioning properly Power to the cell board should only be removed using the MP CM gt PE command or by shutting off the partition or server Therefore if the levers become unlocked the partition does not have a chance to logically shut off and damage can occur to the operating system If the cell board is powered on and one lever becomes unlocked the cell board stays powered on However if the cell board is powered off it does not power on again until the cell board is extracted then reinserted and both levers are in the locked position The lever status can be determined by issuing the MP CM gt DE command and viewing the power status of the cell board controller PDHC The ready bit is only true when both levers are locked and all VRMs are installed This status can be used to determine if both levers are locked and the cell board is properly installed in the chassis For a sample of the output see Figure 5 1 If the state is RDY all caps it means that the ready bit is true If the state is rdy lower case it means that the ready bit is false Descriptions of each of these states is listed below Troubleshooting Figure 5 1 de Command Output MP CM de
194. ommand Default MP Network Settings Table 6 6 lists an example of the default customer LAN network settings for the server Table 6 6 Default Configuration for MP Customer LAN Customer LAN IP Address 192 168 1 1 Customer LAN Host Name gsp0 Configuring MP Network Settings 163 Table 6 6 Default Configuration for MP Customer LAN continued Customer LAN Subnet Mask 255 255 255 0 Customer LAN Gateway 192 168 1 1 This procedure Command menu LC command configures the MP customer LAN network settings from the MP Command menu 1 Connectto the server complex MP and enter CM to access the Command menu To connect to the MP use Telnet if possible If a MP is at its default configuration including default network settings connect to it using either of these methods e Establish a direct serial cable connection through the MP local RS 232 port e Access a PC or workstation on the same subnet as the MP modify its network routing tables to include the default customer LAN IP address then Telnet to the MP To modify networking and connect follow these steps 1 Access a PC or workstation on the MP subnet 2 Modify the network routing tables for the PC or workstation by using the route add 192 168 1 1ClientName command where ClientName Is the network name of the PC or workstation From a PC command prompt enter route add 192 168 1 1ClientName On an HP UX workstation log in as root and use the usr sbin route add 192 168
195. ommand 69 command 89 PE 98 scsi default 98 ser 98 T 98 commands cm Command Menu 67 co Console 69 CTRL B 69 di Display 69 du display MP bus topology 67 Ic LAN configuration 64 Is LAN status 65 vfp Virtual Front Panel 69 communications interference 96 component power requirements 176 computer room safety fire protection 181 computer system sample installation schedule 199 configuration 85 console 85 core I O card 85 CP 88 89 D data communications cables 186 DATE 89 DC 89 DF 89 DI 89 di Display command 69 dimensions and weights 175 DIMM memory 159 171 removing and replacing 159 189 DIMMS 22 159 171 cover 149 memory 22 removing and replacing 159 disk 73 103 104 126 189 internal 27 60 126 removing and replacing 103 104 126 DL 89 du display MP bus topology command 67 E EL 89 electrical and environmental guidelines air distribution system 188 computer equipment grounds 184 computer room safety fire protection 181 dust and pollution control 189 electrical conduit ground 184 grounding systems 183 lighting requirements 181 main building electrical ground 184 power distribution safety grounding 183 power panel grounds 184 power quality 182 sources of electrical disturbances 182 system installation guidelines 186 electrical specifications 175 electrostatic discharge 96 environmental considerations 96 environmental elements 186 a
196. ommands 88 service processor 85 SO 89 sources of electrical disturbances 182 space requirements 193 delivery space requirements 193 subnet mask 63 SYSREV 89 system commands 88 configuration 85 power on 98 system backplane 19 27 28 164 165 166 168 173 175 177 removing and replacing 164 165 166 system configuration verifying 69 system installation guidelines 186 data communications cables 186 wiring connections 186 system specifications 175 T TC 89 TE 89 typical installation schedule 199 U update firmware 90 V verifying system configuration 69 W web console 85 WHO 89 wiring connections 186 wrist strap 96 X XD 89 223
197. onfiguration for HP UX Must Be default page 207 Windows ACPI Configuration windows On nPartition capable HP Integrity servers to boot or install the Windows operating system an nPartition must have its ACPI configuration value set to windows nn For details see ACPI Configuration for Windows Must Be windows page 211 Red Hat Linux 3 ACPI Configuration single pci domain On nPartition capable HP Integrity servers to boot or install the Red Hat Linux 3 operating system an nPartition must have its ACPI configuration value set to single pci domain nri For details see ACPI Configuration for Red Hat Linux 3 Must Be single pci domain page 212 SuSE Linux Enterprise Server ACPI Configuration default On nPartition capable HP Integrity servers to boot or install the SuSE Linux Enterprise Server operating system an nPartition must have its ACPI configuration value set to default For details see ACPI Configuration for SuSE Linux Enterprise Server Must Be default page 213 e ACPI Softpowerdown Configuration OS Shutdown Behavior You can configure the nPartition behavior when an OS is shutdown and halted The two options are to have hardware power off when the OS is halted or to have the nPartition be made inactive all cells are in a boot is blocked state The normal OS shutdown behavior depends on the ACPI configuration for the nPartition You can run the acpiconfig command with no arguments
198. ons A NOTE Any floor system under consideration for a server installation should be verified by an appropriate floor system consultant Raised Floor Loading Raised floor loading is a function of the manufacturer s load specification and the positioning of the equipment relative to the raised floor grid Though HP cannot assume responsibility for determining the suitability of a particular raised floor system it does provide information and illustrations for the customer or local agencies to determine installation requirements The following guidelines are recommended e Because many raised floor systems do not have grid stringers between floor stands the lateral support for the floor stands depends on adjacent panels being in place To avoid compromising this type of floor system while gaining under floor access remove only one floor panel at a time e Larger floor grids bigger panels are generally rated for lighter loads A CAUTION Do not install any raised floor system until you have carefully examined it to verify that it is adequate to support the appropriate installation Floor Loading Terms Table C 3 defines floor loading terms Table C 3 Floor Loading Term Definitions Dead load The weight of the raised panel floor system including the understructure Expressed in Ib ft2 kg m2 Live load The load that the floor system can safely support Expressed in Ib ft2 kg m2 Facility Characteristics 191
199. oor lighting etc Cooling No Area or condition Yes No 27 Can cooling be maintained between 20 C and 55 C up to 5000 ft Derate 1 C 1000 ft above 5000 ft and up to 10 000 ft 28 Can temperature changes be held to 10 C per hour with tape media Can temperature changes be held to 20 C per hour without tape media 29 Can humidity level be maintained at 40 to 60 at 35 C noncondensing 30 Are air conditioning filters installed and clean Storage Sample Site Inspection Checklist 201 Table C 6 Site Inspection Checklist continued Please check either Yes or No If No include comment or date Comment or Date Area or condition Are cabinets available for tape and disc media 32 Is shelving available for documentation Training No Area or Condition 33 Are personnel enrolled in the System Administrator s Course 34 Is on site training required Delivery Survey The delivery survey forms list delivery or installation requirements If any of the items on the list apply enter the appropriate information in the areas provided on the form Special instructions or recommendations should be entered on the special instructions or recommendations form The following list gives examples of special instructions or issues Packaging restrictions at the facility such as size and weight limitations Special delivery procedures Special equipment required for installation such a
200. ower Cell LPM On Green 3 3V Standby and Cell Pwr Good located in the server cabinet Off 3 3V Standby off or 3 3V Standby on and no Cell Pwr Good Attention MP thru GPM Flash Yellow Safe to remove the cell board from the system PCI X OL Card Divider LEDs The PCI X OL card LEDs are located on each of the 16 PCI X slot dividers in the PCI X card cage assembly area The green power LED indicates whether power is supplied to the card slot The yellow attention LED states are defined in Table 5 9 80 Troubleshooting Figure 5 7 PCI X OL LED Locations Slot Attention Yellow Slot Power Green Card Divider Core I O LEDs The core I O LEDs in Table 5 7 page 82 are located on the bulkhead of the installed core I O PCA HP Integrity rx7620 Server LED Indicators 81 82 Figure 5 8 Core I O Card Bulkhead LEDs Power Attention MP Master DVD Tape 100 Base T 10 Base T Self Test MP Power Table 5 7 Core I O LEDs LED as silk screened on the State Description bulkhead Power On Green T O power on Attention On Yellow PCI attention MP Master On Green Core I O is managing the system DVD Tape On Green Core I O is managing the DVD Tape Self Test On Yellow Failure during POST MP LAN Act On Green MP LAN activity MP LAN 10 BT On Green MP LAN in 10 BT mode MP LAN 100 BT On Green MP LAN in 100 BT mode Troubleshooting Core I O Buttons There are two recessed
201. p tae br tpe ters dep etae Fl fring 39 3 Installing Additional Components sees 4 Wheel Kit Installation eter seed eet tete eet aer elite Ravel eeee tpe ee week cota eoe bue da 41 PCI X Card Cape Assembly D O Cardscad eirca deco itepotutre br elder eee beiden iude qud 45 DVD RW Installation Instructions eeeeeeeeeeeeeeeeee nenne emen EEES EEEE EEEE EEE EEE 50 Table of Contents 3 AG ia OC onmnecllofis tiet irt eder t oen phe totis eee tee ees edid 55 AC Tp PO s NC E 55 DC Input Poweto sauve utquiyime Re RO Verri MEER Lael ta tu Ms 56 AC Voltage Check use eeu iue pere Up red e dee pA A ve UE dedos 57 AC Voltage Check Additional Procedt re eiecti tec into ter seen teca ea eee ineo 59 MP Gore I O Connecliong o iot ee rep e ee p bee te vet e tete ebbe eme Bes 60 MB SGCSLDE CortiectiOong 05 aso coeno ts dei e oet eiie eda cal a tetulocteaest us atus a dude ra ctas 60 LAN SCS Connectiotis z5idoe eet bebe sem e et entes etel eet eds eoe bec etel e e eee ton eR EUR 61 Management Processor ACCES uestes odat i ipia o o deed edes Eco pc fv a etg PN HL Pes 61 Setting Up the Customer Engineer Tool PC crane dances beUa ep b dut er etu vs MIU 61 Setting CE Tool Parameters ucc satel seid e dt e ecd toot ttes T E tis tete deae eua 61 Connecting the CE Tool to the Local RS 232 Port On the MP esee 62 Standby Power and Logging In to the MD sso ege etre senda nt tetas tos Site 62 Configuring LAN Informatio
202. pical input current due to the charging of the input filter capacitors When switching power supplies are first turned on they present high initial currents as a result of filter capacitor impedance These large filter capacitors act like a short circuit producing an immediate inrush surge current with a fast rise time The peak inrush current can be several orders of magnitude greater than the supply s typical current Abbreviation for kilovolt amperes 1000 x volt amperes An air conditioning system s capability to remove heat from the air A term relating to current flowing between the AC supply wires and earth ground The term does not necessarily denote a fault condition In power supplies leakage current usually refers to the 60 Hertz current which flows through the EMI filter capacitors that are connected between the AC lines and ground The operating current of the product equal to the maximum load divided by the minimum input voltage All electronic equipment has the potential to interfere with other electronic equipment Interference can be caused by electromagnetic radiation the grounding system the electrical power connection excessive heat or blocking the natural airflow and connecting wires or cables The FCC Federal Communications Commission regulates a portion of this problem 219 OR PCA PCI PICMG Power factor RMS ST Theoretical maximum power consumption Tonnage True power Typical input curre
203. plane FM 1 002 System Backplane OSP 1 002 PCI X Backplane LPM 2 000 PCI X Backplane HS 1 000 Core IO 2 008 Cell LPM 1 002 Cell PDHC 1 007 FIRMWARE Core IO MP A 006 012 Event Dictionary 1 009 Cell PDHC A 003 023 Cell SFW 1 025 156 Removing and Replacing Components ET NOTE If the firmware or programmable hardware versions are not at or above the minimum versions go to the HP website to obtain the latest Firmware Release Notice and firmware patches The Firmware Update Release notice is included in the download bundle and includes the upgrade instructions 24 Power on the nPartition See Appendix D 25 To verify proper operation of the cell board use the info cpu command from the EFI Shell Removing and Replacing a Cell Board VRM The voltage regulator modules VRMs are located on the cell boards There are a total of 15 VRMs on the cell board Seven are high voltage and eight are low voltage Figure 6 57 VRM Locations as ae VRM10 HV 3 3 3 3 V A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Removing a Cell Board VRM Before attempting to remove or replace a VRM you must remove the system power to the cell board that contains the VRM to be replaced For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 Removing and Replacing a Cell Boar
204. ponding cell board The high speed data signals are routed from the SBA chips on the PCI X backplane to the two LBA PCI bus controllers on the system backplane Clocks and Reset The system backplane contains reset and clock circuitry that propagates through the whole system The central clocks drive all major chip set clocks Therefore these circuits represent a system wide single point of failure I O Subsystem The cell board to the PCI X board path runs from the CC to the SBA from the SBA to the ropes from the ropes to the LBA and from the LBA to the PCI slots seen in Figure 1 4 The CC on cell board 0 and cell board 1 communicates with one each SBA over the SBA link The SBA link consists of both an inbound and an outbound link with an effective bandwidth of approximately 1 GB sec The SBA converts the SBA link protocol into ropes A rope is defined as a high speed point to point data bus The SBA can support up to 16 of these high speed bi directional rope links for a total aggregate bandwidth of approximately 4 GB sec Each LBA acts as a bus bridge supporting either one or two ropes and capable of driving 33 Mhz or 66 Mhz for PCI cards The LBAs can also drive at 66 Mhz or 133 Mhz for PCI X cards Overview 19 20 Figure 1 4 PCI X Board to Cell Board Block Diagram System Bus Adapter SBA System Bus Adapter SBA ET NOTE PCI X slots 1 7 are dual rope slots while slot 8 is a single rope slot A rope is defined
205. put directed to the wrong location Therefore any time new potential console devices are added to the system or anytime NVRAM on the system is cleared console selections should be reviewed to ensure they are correct Booting the HP Integrity rx7620 Server A After powering on the MP 3 3 V Housekeeping power and verifying that the MP detects the presence of the cell boards power on the server If using a LAN crossover cable with the laptop review server activity for each partition configured while the server powers on and boots Windows can be opened for the complex and for each partition HP recommends that at least two windows be opened e Awindow showing all activity in the complex Following the installation procedure in this guide causes a window to be open at startup To display activity for the complex follow these steps 1 Opena separate Reflection window and connect to the MP 2 From the MP Main Menu select the VFP command with the s option e A window showing activity for a single partition To display activity for each partition as it powers on follow these steps 1 Opena separate Reflection window and connect to the MP 2 Select the VFP command and select the desired partition to view There should be no activity on the screen at this point in the installation process NOTE More than one window cannot be opened using a serial display device To power on the server follow these steps 1 Switch the po
206. r any damages resulting from unauthorized use of this program This RRR program is the property of HP dk kkk KKKKK KkKKKK ode Version 4 00 eee 134 Removing and Replacing Components okk kk KKKKK kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkkkxk Flash Current Number Cabinet Name Partition Handle Firmware Version Comments 1 1 0 MP 0 0 0 5 022 Master 1 2 0 MP 1 RE I 5 022 Slave 3 3 2 8 MP 0 0 32768 5 022 Master 3 4 2 8 MP 1 dH 32769 5 022 Slave 5 0 PDHC 0 0 256 3 012 6 0 SFW O 0 320 21 003 7 0 PDHC 1 1 257 3 014 8 0 SFW 1 d 321 21 003 3 9 0 PDHC 2 0 258 3 014 3 10 0 SFW 2 0 322 21 003 3 11 0 PDHC 3 Al 259 3 014 3 12 0 SFW 3 1 323 21 003 Enter the Entities to be upgraded Ex 3 4 10 5 Enter your user name anonymousEnter your user password Enter the ip address where the firmware can be found 192 1 1 1 Enter the path where the firmware can be found dist versionX X Enter the filename of the firmware image for the PDHC pdhc A X X X bin Are you sure that you want to continue Y N y Firmware Updating PDHC Firmware updating progress is reported NOTE 1 Cabinet id 8 is assigned to the SEU NOTE 2 These entities might be different depending on your server NOTE 3 X X X is the version number corresponding to the version of the PDHC Firmware on the other cells Ensure the entity selected was updated successfully A succes
207. r of preference e Complete self contained package units with remote condenser These systems are available with up or down discharge and are usually located in the computer room e Chilled water package unit with remote chilled water plant These systems are available with up or down discharge and are usually located in the computer room Environmental Elements 187 e Central station air handling units with remote refrigeration equipment These systems are usually located outside the computer room e Scalable overhead distribution system These systems distribute water overhead to air Man exchangers which cool the air locally over the servers A system called DataCool Mi primarily used in high density environments of 100 to 500 watts per square foot Basic Air Distribution Systems A basic air distribution system includes supply air and return air An air distribution system should be zoned to deliver an adequate amount of supply air to the cooling air intake vents of the computer system equipment cabinets Supply air temperature should be maintained within the following parameters e Ceiling supply system From 55 to 60 F 12 8 to 15 6 C e Floor supply system At least 60 F 15 6 C If a ceiling plenum return air system or a ducted ceiling return air system is used the return air grilles in the ceiling should be located directly above the computer equipment cabinets The following three types of air distribution syste
208. r shutdown R H The two options are to have hardware power off when the OS is halted or to have the nPartition be made inactive all cells are in a boot is blocked state The normal behavior for HP UX shutdown and halt is for the nPartition be made inactive For details see ACPI Softpowerdown Configuration OS Shutdown Behavior page 206 Procedure D 8 Shutting Down HP UX sbin shutdown command From the HP UX command line issue the shutdown command to shut down the HP UX operating system 1 Loginto HP UX running on the nPartition that you want to shut down You can login to HP UX on the nPartition either by directly connecting with the Te1net or rlogin commands or by logging in to the service processor GSP or MP for the complex where it resides and using the Console menu to access the nPartition console Accessing the console through the service processor enables you to maintain console access to the nPartition after HP UX has shut down 214 Operating System Boot and Shutdown 2 Issue the shutdown command with the appropriate command line options The command line options you specify dictate the way in which HP UX is shut down whether the nPartition is rebooted and whether any nPartition configuration changes adding or removing cells take place Use the following list to choose an HP UX shut down option for your nPartition e Shutdown HP UX and halt the nPartition On nPartition capable HP Integrity s
209. r than necessary when moving it over to the rack ET NOTE When installing the server in a rack see the HP J1530B Rack Integration Kit Installation Guide Unloading With Lift Handle Panels WARNING Use this procedure only if an HP approved lift is not available This procedure should only be attempted by two authorized HP service technicians Before attempting this procedure HP recommends removing all cell boards and AC power supplies For instructions on removing these components see Chapter 6 page 95 Before attempting to move the server using the lift handle panels review local safety regulations Failure to observe these precautions can cause serious injury to personnel or damage to equipment A CAUTION Unpack the server in an ESD safe environment Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server To remove the server using lift handle panels follow these steps 1 Remove both side covers If present remove the front panel 2 Locate lift handles and remove from storage plate 3 Orient lift handle panels such that when installed the handles hang down at 90 degrees and lock in a horizontal position during lifting Unpacking a Non Racked Server 37 on ono oaove 4 With one handle in each hand install the pin end of the panel into the back side of the front rack mount ears on the chassis Figure 2 1
210. r the cooling air intakes of the computer system cabinets larger space requirements are needed to keep ambient air intake to the computer system cabinets within the specified temperature and humidity ranges Space Requirements 193 Figure C 3 Footprint Rack Rear Rear Anti Tip F oot With Ballasat 53 0 in 129 9 cm Rack F ront Server Fully Extended Space planning should also include the possible addition of equipment or other changes in space requirements Equipment layout plans should also include provisions for the following e Channels or fixtures used for routing data cables and power cables e Access to air conditioning ducts filters lighting and electrical power hardware e Power conditioning equipment e Cabinets for cleaning materials e Maintenance area and spare parts Equipment Footprint Templates The equipment footprint template and floor plan grid are drawn to the same scale 0 25 in 1 ft These templates are provided to show basic equipment dimensions and space requirements for servicing The service areas shown on the template drawings are lightly shaded The equipment templates should be used with the floor plan grid to define the location of the equipment that will be installed in your computer room E NOTE Photocopying typically changes the scale of drawings copied If any templates are copied then all templates and floor plan grids must also be copied Computer Room Layout Plan
211. rate with the boot device that is mapped as fs3 enter s3 at the EFI Shell prompt 3 Enter ELILO at the EFI Shell command prompt to launch the ELILO EFI loader If needed you can specify the loader s full path by entering efi SuSE elilo at the EFI Shell command prompt 4 Allow the ELILO EFTI loader to proceed with booting the Red Hat Linux kernel By default the ELILO EFI loader boots the kernel image and options specified by the default item in the elilo conf file To interact with the ELILO EFI loader interrupt the boot process for example enter a space at the ELILO boot prompt To exit the loader use the exit command Shutting Down HP UX When HP UX is running on an nPartition you can shut down HP UX using the shutdown command On nPartitions you have the following options when shutting down HP UX e To shut down HP UX and reboot an nPartition shutdown r On nPartition capable HP Integrity servers the shutdown r command is equivalent to the shutdown R command e Toshut down HP UX and halt an nPartition shutdown h On nPartition capable HP Integrity servers the shutdown h command is equivalent to the shutdown R Hcommand e To perform a reboot for reconfig of an nPartition shutdown R e To hold an nPartition at a shutdown for reconfig state shutdown R H For details see the shutdown 1M manpage ET NOTE You can configure the nPartition behavior when an OS is shutdown and halted shutdown ho
212. rd On a cell board the processors must be the same type and speed For the CPU load order that must be maintained when adding CPUs to the cell board see Table 1 2 For the locations on the cell board for installing CPUs see Figure 1 8 A single CPU configuration is not available for the cell board Table 1 2 Cell Board CPU Load Order Number of Socket 0 Location Socket 1 Location Socket 2 Location Socket 3 Location CPUs Installed Two CPU installed Empty slot Terminator Empty Four CPU installed Empty slot CPU installed Empty Six CPU installed CPU or empty CPU installed Empty or CPU Eight CPU installed CPU installed CPU installed CPU installed Detailed HP Integrity rx7620 Server Description 23 Figure 1 8 CPU Locations on the Cell Board Cell CPU CPU Controller CPU CPU Socket 2 Socket 3 Socket 1 Socket 0 DIMMs The memory DIMMs used by the HP Integrity rx7620 Server are custom designed by HP and are identical to those used in the Superdome server Each DIMM contains SDRAM memory components and is qualified to run at 125MHz The CPU chip set does not support traditional DRAMs The HP Integrity rx7620 Server supports DIMMs with densities of 64 128 256 and 512 Mb for the SDRAM devices Figure 1 3 shows each supported DIMM size the resulting total system capacity and the memory component density Each DIMM is connected to two buffer chips on the cell board You must load DIMMs in sets of four
213. re blocks connected by several data buses The major hardware blocks are the Central Processor Units CPUs the Cache Coherency Controller CC the memory controllers and the memory Minor hardware blocks include Clock Distribution Power Distribution Reset Circuit and PDH Riser Board Interface The buses include two Front Side Buses FBSO and FBS1 a Memory MID bus a Crossbar XB bus and an I O bus All these blocks come together at the CC chip Figure 1 6 Cell Board E The HP Integrity rx7620 Server has a 48V distributed power system and receives the 48V power from the system backplane board The cell board contains DC to DC converters to generate the required voltage rails The DC to DC converters on the cell board do not provide N 1 redundancy Because of space limitations on the cell board the PDH PDHC circuitry resides on a riser board that plugs into the cell board at a right angle The cell board also includes clock circuits test circuits and de coupling capacitors Figure 1 7 shows a simplified view of the memory subsystem It consists of two independent access paths each path having its own address bus control bus data bus and DIMMs In practice the CC runs the two paths 180 degrees out of phase with respect to each other to facilitate pipelining in the CC Address and control signals are fanned out through register ports to the synchronous dynamic random access memory SDRAM on the DIMMs 22 Introduction Figur
214. remove all power cables Remove the top and right side covers Remove the PCI access panel Disconnect the PCI OLR cable from the PCI OLR assembly The connector is located on the cell board side of the system Take note of the connector orientation and polarity Flip all PCI MRL to the OPEN position Removing and Replacing the PCI OLR Assembly 117 8 E 9 10 11 12 Remove all of the PCI MRLs beginning on the OLR cable side of the system left side when viewed from the rear of the system Push out on top of the PCI MRL to unclip the PCI MRL axle from the retaining slot carefully taking care not to break off the optic sensor tab With the tab clear of obstruction lift the MRL up and out NOTE Itis highly recommended that extra PCI MRLs are available as these may be easily broken during removal or replacement Remove the PCI OLR assembly by pushing in on the plastic tabs that secure the assembly to the chassis Tilt the assembly away from the attach points Disengage the bottom holding the tabs from the chassis Lift the assembly up and out Figure 6 25 PCI OLR Assembly Removal Replacing the PCI OLR Assembly To replace a PCI OLR assembly follow these steps 1 Position the assembly at an angle so that the bottom holding tabs engage into the bottom holes of the chassis Tilt the assembly toward the chassis bringing it upright and engage the plastic tabs so that the assembly is firmly and evenly a
215. replacement OLAR The attention button is also referred to as the doorbell To add a PCI card follow these steps 1 Remove the top cover 2 Remove the PCI bulkhead filler panel 3 Flip the PCI manual retention latch MRL for the card slot to the open position See Figure 3 8 4 Install the new PCI card in the slot ET NOTE To properly seat the card into the backplane apply slow firm pressure 5 Flip the PCI MRL for the card slot to the closed position A CAUTION Working out of sequence or not completing the actions within each step can cause the system to crash Do not press the attention button until the latch is locked 6 Press the attention button The green power LED starts to blink PCI X Card Cage Assembly I O Cards 49 50 A 9 Figure 3 8 PCI 1 O Slot Details Manual Release Latch Closed Manual Release Latch Open Attention Button Power LED Green Attention LED Yellow Wait for the green power LED to stop blinking Check for errors in the hotplug daemon log file default var adm hotplugd 1og The critical resource analysis CRA performed while doing an attention button initiated add action is very restrictive and the action will not complete it will fail to protect critical resources from being impacted For finer control over CRA actions use pdweb or the olrad command For details see the Interface Card OL Support Guide located on the HP website at http docs
216. rforming a shutdown using shutdown s or the equivalent Start Shut Down Shut down powers off the server cabinet or powers off the cells and I O chassis assigned to the nPartition This behavior can be customized For details see ACPI Softpowerdown Configuration OS Shutdown Behavior page 206 Procedure D 9 Windows Shutdown From the Command Line From the Windows command line issue the shutdown command to shut down the operating system 1 Login to Windows running on the system that you want to shut down For example access the system console and use the Windows SAC interface to start a command prompt from which you can issue Windows commands to shut down the system 2 Check to see whether any users are logged in Usethe query userorquery session command 3 Issue the shutdown command and the appropriate options to shut down the Windows Server 2008 on the system You have the following options when shutting down Windows e To shut down Windows and reboot use shutdown r or select the Start gt Shut Down action and choose Restart from the pull down menu e To shut down Windows and not reboot either power off server hardware or put an nPartition into a shutdown for reconfig state use shutdown s or select the Start gt Shut Down action and choose Shut down from the pull down menu e To abort a shutdown stop a shutdown that has been initiated use shutdown a For example shutdown r t 60 c Shut
217. roperly routed secured and connected Repeat steps 1 through 10 for all remaining CPU modules Install the new processor cover and secure all screws Position the DIMM cover in place and tighten all captive screws Install the cell board in the server Repeat steps 1 through 15 for all remaining cell boards to be upgraded Replace covers Power on the server Use the Firmware Update Utility FW from the MP Command Menu to update firmware to the latest revision Upgrade the operating system if required NOTE Firmware must be updated to support the new dual core processors Below is an example of the minimum Firmware Version 3 3 PROGRAMMABLE HARDWARE System Backplane GPM 1 002 System Backplane FM 1 002 System Backplane OSP 1 002 PCI X Backplane LPM 2 000 PCI X Backplane HS 1 000 Core IO 2 008 Cell LPM 1 002 Cell PDHC 1 007 FIRMWARE Core IO MP 4 006 012 Event Dictionary 1 009 Cell PDHC 4 003 023 Cell SFW 1 025 Power on the nPartition To verify proper operation of the cell board use the info cpu command from the EFI Shell Installing Intel Itanium 2 CPUs AB548A and AB439A There are additional components required when replacing a CPU with an Intel Itanium 2 CPU Intel Itanium 2 CPUs AB548A and AB439A VRM cover AB388 00002 Door opener AB388 00003 Review IMPORTANT information regarding A1 vs A2 Stepping Processors prior to installation 152 Removing and Replacing Components AB439A and A
218. rver is configured with one core I O board that board must be in slot 0 since the master MP is always the MP on the core I O board in slot 0 When the server is configured for two partitions it must contain two core I O boards one for each partition It also contains two MPs In this case the MP in slot 0 is the master MP and provides all of the server management functions The MP on the core I O board in slot 1 is a slave MP and redirects the operating system gettys to the master MP over an internal MP to MP link All external connections to the MP must be to the master MP in slot 0 The slave MP ports are disabled For high availability HA the server powers on and powers off without an MP Booting HP UX without an MP depends on the ability of the operating system to boot without a console getty Thus in a two partition system the partition with a failed MP might not boot since the MP provides the console getty The server configuration cannot be changed without the MP Server Management Subsystem Hardware Overview 85 Resetting the MP through a modem connection may cause Admin M to display on every enter keystroke Attempting a modem reset MP command MR does not clear this incorrect response This is not experienced with a Telnet connection To regain control at a new login prompt follow these steps 1 Enter Admin case sensitive and press lt enter gt lt ctrl enter gt keys A new Login prompt is created 2 To move o
219. s prompt gt pwrgrd Power grid configuration preference 1 Grid A only Cords A0 A1 required 2 Grid B only Cords B0 B1 required 3 Grids A amp B Cords A0 A1 B0 B1 required 4 Cords AO amp BO only5 Cords Al amp B1 only Select Option If two separate power sources are available the two power supplies can be plugged into the separate power sources increasing system reliability Below is an illustration of the input power wiring Cable Connections Figure 4 3 HP Integrity rx7620 Server DC Power Input Return Return Return Return A8vdc A8vdc A8vdc A8vdc Connect A8vdc to the terminals Connect Return to the terminals WARNING Voltage is present at various locations within the server whenever a power source is connected This voltage is present even when the main power switch is in the off position Failure to observe this warning can result in personal injury or damage to equipment ET NOTE System firmware prevents booting when a single power cord configuration is detected AC Voltage Check This section provides voltage check information for use on the customer site The emphasis focuses on measuring the voltages at the power cord plug end specified as an IEC 320 C19 type plug This end plugs directly into the back of the HP Integrity rx7620 Server chassis ET NOTE These procedures must be performed for each power cord that will be plugged directly into the back of the HP Int
220. s Once DFW has completed verify the following message is returned DFW has completed successfully for all entities A CAUTION DO NOT RESET or AC POWER CYCLE the cell or server unless you have received confirmation that DFW has completed successfully Repeat the DFW command immediately if the firmware failed to complete successfully 8 Perform steps 11 and 12 from Step 11 Installing the VRM Cover AB388 00002 and Door Opener AB388 00003 These two assemblies replace the single CPU cover when installing PA8800 and dual core IPF processors The assemblies are included in upgrade kits and are not available to order individually The following is a list of processors that require the new air baffles e Intel Itanium 2 CPUs AB548A and AB439A e PA8800 CPUs AB536A and AB537A To install new air baffles follow these steps 1 Remove the old CPU cover 2 Install the VRM cover AB388 00002 onto the left side of the cell board 3 Tighten the screw See Figure 6 43 Figure 6 43 VRM Cover Installed 4 Install the door opener AB388 00003 onto the right side of the cell board 144 Removing and Replacing Components 5 Tighten the screw See Figure 6 44 Figure 6 44 Door Opener Installed ag f R 6 Install the cell board into the server Replace the right side cover 8 Power on the server For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96
221. s 177 PCI Mass Storage Section Cooling Six 92 mm fans located between the mass storage devices and the PCI card cage provide airflow through these devices The PCI fans are powered with housekeeping power and run at full speed at all times The air is pulled through the mass storage devices and pushed through the PCI Card Cage Perforation is provided between the PCI bulkheads to enable adequate exhaust ventilation and to help reduce the localized airflow dead spots that typically occur at the faceplate tail of each PCI card Standby Cooling Several components within the chassis consume significant amounts of power while the system is in standby mode The system fans run at 1541 rpm or 3876 of full speed during standby to remove the resulting heat from the cabinet The fans within the power supply operate at full speed during standby Typical Power Dissipation and Cooling Table B 5 Typical HP Integrity rx7620 Server Configurations The air conditioning data is derived using the following equations e Watts x 0 860 kcal hour e Watts x 3 414 Btu hour Cell Memory Per PCI Cards DVDs Hard Disk Core I O Bulk Power Typical Typical Boards CellBoard assumes 10 Drives Supplies Power Cooling watts each Qty GBytes Qty Qty Qty Qty Qty Watts BTU hr 2 16 16 2 4 2 2 2030 6930 42 2 8 8 0 2 2 2 1733 5916 46 2 4 8 0 2 2 2 1678 5728 69 1 4 8 0 1 1 2 1047 3574 46 A e Btu hour
222. s derate most power connectors to 80 of their RMS current ratings Power Quality The server is designed to operate over a wide range of voltages and frequencies The server has been tested and shown to comply with EMC Specification EN50082 However damage can occur if these ranges are exceeded Severe electrical disturbances can exceed the design specifications of the equipment Sources of Voltage Fluctuations Voltage fluctuations sometimes called glitches affect the quality of electrical power Common sources of these disturbances are e Fluctuations occurring within the facility s distribution system e Utility service low voltage conditions such as sags or brownouts e Wide and rapid variations in input voltage levels e Wide and rapid variations in input power frequency e Electrical storms e Large inductive sources such as motors and welders e Faults in the distribution system wiring such as loose connections e Microwave radar radio or cell phone transmissions Power System Protection The server can be protected from the sources of many of these electrical disturbances by using e A dedicated power distribution system e Power conditioning equipment e Over and under voltage detection and protection circuits e Screening to cancel the effects of undesirable transmissions e Lightning arresters on power cables to protect equipment from electrical storms 182 General Site Preparation Guidelines Every precaution has
223. s to take effect VGA Consoles Any device that has a Pci section in its path and does not have a Uart section is a VGA device If you require a VGA console choose the device and unmark all others Figure 4 14 shows that a VGA device is selected as the console Interface Differences Between ltanium Based Systems Each Itanium based system has a similar interface with minor differences Some devices may not be available on all systems depending on system design or installed options MP Consoles Any device containing both a Uart and Pci section in its path are MP serial ports To use the MP as your console device select the MP serial device entry that matches your console type PcAnsi Vt100 Vt100 VtUtf8 and deselect everything else Other Console Types Any device that has a Uart section but no Pci section is a system serial port To use the system serial port if available as your console device select the system serial device entry that matches your console type PcAnsi Vt100 Vt100 VtUtf8 and deselect everything else 68 Cable Connections If you choose either a system or MP serial port HP recommends that you use a vt100 capable terminal device Additional Notes on Console Selection Each operating system makes decisions based on the EFI Boot Maintenance Manager menu Select Active Console selections to determine where to send its output If incorrect console devices are selected the OS can fail to boot or boots with out
224. s tracking or hoists What time the facility is available for installation after the equipment is unloaded Special security requirements applicable to the facility such as security clearance 202 General Site Preparation Guidelines Figure C 16 Delivery Survey Part 1 DELIVERY CHECKLIST DOCK DELIVERY Is dock large enough for a semitrailer Circle the location of the dock and give street name if different than address North STREET DELIVERY Circle the location of access door and list street name if different than address North South List height and width of access door List special permits if required for street delivery Permit type Agency obtained from 60SP018A 12 7 88 Delivery Survey 203 Figure C 17 Delivery Survey Part 2 ELEVATOR Fill in the following information if an elevator is required to move equipment Capacity Ib or kg Depth Height Width STAIRS Please list number of flights and stairway dimensions Number of flights 1 1 Number of flights Width 1 Width Width J Width Width 60SP019A 11 24 99 204 General Site Preparation Guidelines D Operating System Boot and Shutdown This appendix covers procedures for booting an operating system OS on an nPartition hardware partition and procedures for shutting down the OS Operating Systems Supported on HP nPartition capable Servers HP supports nPartitions on HP Integrity servers The follo
225. sage is returned Removing and Replacing a Cell Board 141 DFW has completed successfully for all entities A CAUTION DO NOT RESET or AC POWER CYCLE the server unless you have received confirmation that DFW has completed successfully Repeat the DFW command immediately if the firmware failed to complete successfully NOTE 1 After a DFW copy of a cell PDHC firmware image is captured the version displayed by the sysrev command is not correct until the cell PDHC is reset using the ru command or AC power is cycled 4 Example To downgrade the PDHC image B firmware MP CM gt dfw kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkk KKKKK KKKKK k k k k k Duplicate Firmware Utility kk kk k KKKKK KKKKK ERE C Copyright 2001 Hewlett Packard Company eK RR RM RR ae All Rights Reserved mp KKKKK KKKKK kk THIS PROGRAM IS NOT LICENSED TO CUSTOMERS LLLI KKKKK KkKKKK This program is intended for use by trained HP support Wok personnel only HP shall not be liable for any damages resulting from unauthorized use of this program This Ak program is the property of HP dde KKKKK KKKKK wk RK Version 1 04 kkk k k KKKKK KKKKK kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkxkk Flash Current Number Cabinet Name Partition Handle Firmware Version Comments 1 0 PDHC 0A 0 256 A 003 034 Current 2 0 PDHC OB 0 264 A 003 034 Old 3 0 SFW OA 0 320 22 002 Pri PA 4 0 SFW OB 0 328 22 002 S
226. select the appropriate console device deselect unused devices a Choosethe Boot option maintenance menu choice from the main Boot Manager Menu b Select the Console Output Input or Error devices menu item for the device type you are modifying e Select Active Console Output Devices e Select Active Console Input Devices e Select Active Console Error Devices c Available devices are displayed for each menu selection Figure 4 14 shows a typical output of selecting the Console Output Devices menu Figure 4 14 Console Output Device Menu EFI Boot Maintenance Manager ver 1 10 14 61 Select the Console Output Device s ficpi PNP0501 0 Uart 9600 N81 V enHtsg Pcfnsi ficpi PNP0501 0 Uart 9600 N81 VenMsg t 100 ficpi PNP0501 0 Uart 9600 N81 entsg t 100 ficpi PNP0501 0 Uart 9600 N81 Venhsg VtUtf8 ficpi HHP0002 700 Pci 0 1 Uart 85800 N81 VenHsg Pc nsi ficpi HHP0002 700 Pci 0 1 Uart 9800 N81 VenHsg Vt 1 00 ficpi HHP0002 700 Pci 0 1 Uart 85800 N81 VenHsg Vt 1 00 ficpi HHP0002 700 Pci 0 1 Uart 85800 N81 VenHsg VtUtf8 x ficpi HHP0003 400 Pci 0 0 Save Settings to NVRA H Exit d Choose the correct device for your system and deselect others For details about choosing the appropriate device see Interface Differences Between Itanium Based Systems To complete the change select Save Settings to NVRAM and then Exit f A system reset is required for the change
227. sful update returns the following message Firmware Update has completed successfully for all entities MP CM An unsuccessful update results in an error message If the FTP connection was successful but the update failed a warning is noted for the entity being updated For example Firmware Update failed for entity SFW 0 DO NOT REBOOT SFW 0 until it has been successfully updated Firmware Update completed with errors CAUTION Repeat the firmware update procedure immediately for all entities failing to update successfully DO NOT RESET or AC POWER CYCLE until you get a message indicating that all updates have completed successfully Activate the new Firmware for all updated components by cycling power to the cell following these specific steps a Eject the Cell b Reinsert the Cell Following the Cell AC power cycle verify the updated firmware revisions by using the sysrev command Example MP CM sysrev Cabinet firmware revision report PROGRAMMABLE HARDWARE System Backplane GPM FM OSP 1 002 1 002 1 002 PCI X Backplane LPM HS 2 000 1 000 Removing and Replacing a Cell Board 135 Core IO Master Slave 2 009 2 009 LPM PDHC Cell O 1 002 1 007 Cell 1 1 002 1 007 Cell 2 1 002 1 007 Cell 3 1 002 1 007 FIRMWARE Core IO Master A 006 012 Event Dict g 0 009 Slave gt A 006 012 Event Dict 0 009 Cell o PDHC A 003 023 Pri SFW 21 003 PA Sec SFW 21 003 PA Cell 1 PDHC A
228. shuts down and halts HP UX on the nPartition after waiting for a grace period of four minutes 240 seconds To reboot the nPartition after it is halted use the MP Command menu RS command to restart the nPartition Powering Off Hardware Components To power off individual components or the entire cabinet follow these steps 1 2 Log in to the MP If the component you will power off is assigned to an nPartition use the VFP to view the current boot state of the nPartition HP UX on the nPartition must be shut down before you power off any of the hardware assigned to the nPartition See Appendix D When you are certain the nPartition is not running HP UX you can power off components that belong to the nPartition For details on determining the nPartition boot state and shutting down HP UX see Appendix D Access the MP Command menu From the MP Main menu enter CM to access the Command menu Shutting Down nPartitions and Powering Off Hardware Components 97 Vd 7 To check details about the hardware component you plan to power off use the MP Command menu PS command The PS command enables you to check the status of the cabinet system backplane MP core I O PCI power domains or bricks in the I O card cage and cells Use the MP Command menu PE command to power off the hardware component Using the PE command you can power the cabinet including all cells and I O in the cabinet on or off individual cells along
229. stomer as soon as possible after the order is placed e Site Verification schedule with the customer a minimum of one to two days before the product is scheduled to be installed Sample Site Inspection Checklist Table C 5 Customer and HP Information Customer Information Name Phone No Street Address City or Town State or Province Country Zip or postal code Primary customer contact Phone No Secondary customer contact Phone No Traffic coordinator Phone No HP information Sales representative Order No Representative making survey Date Scheduled delivery date Table C 6 Site Inspection Checklist Computer room Please check either Yes or No If No include comment or date Comment or Date recommended clearances Front 36 in 91 4 cm minimum Rear 36 in 91 4 cm minimum are No Area or condition Yes No 1 Is there a completed floor plan 2 Is there adequate space for maintenance needs 3 Is access to the site or computer room restricted 4 Is the computer room structurally complete Expected date of completion 5 Is a raised floor installed and in good condition 6 Is the raised floor adequate for equipment loading 7 Are there channels or cutouts for cable routing 200 General Site Preparation Guidelines Table C 6 Site Inspection Checklist continued
230. storage section located in the front allows access to the 3 5 inch hard drives without removal of the bezel This is especially helpful when the system is mounted in the lowest position in a rack The mass storage bay also accommodates one 5 25 inch removable media device The front bezel must be removed to gain access to this device The front panel display board containing LEDs and the system power switch is located directly above the 5 25 inch removable media bay Below the mass storage section and behind a removable bezel are two PCI DC to DC power converters The bulk power supply section is partitioned by a sealed metallic enclosure located in the bottom of the package This enclosure houses the N 1 fully redundant BPSs Server Description 27 28 Figure 1 11 Right Front View of HP Integrity rx7620 Server PCI X cards Front panel display board Cell boards PCI Power modules Bulk powers supplies The PCI X card section located toward the rear is accessed by removing the top cover The PCI OLR fan modules are located in front of the PCI X cards These six 9 2 cm fans are housed in plastic carriers They are configured in two rows of three fans The MP SCSI core I O boards are positioned vertically at the rear of the chassis The PCI X card bulkhead connectors are located in the top rear portion of the chassis Four OLR system fan modules externally attached to the chassis are 15 cm 6 5 inch fans Two fans are mou
231. t Issues Communications Relative to the Intel Itanium 2 Madison 9M Processor and Upcoming Firmware 319 e Service Notes for the firmware releases with A2 Stepping processor support Firmware Release notes are summarized in the service note for the HP Integrity rx7620 e ReadMe flyers are included with the Add On A2 processor parts and GSO replacement parts indicating the minimum level of firmware required CPU Installation Procedures A A All CPU sockets must be empty before proceeding CAUTION Avoid removing any VRMs to connect the CPU power pod and turbo cooler cables into the cell board connectors NOTE CPU load order must be maintained when adding CPUs to the cell board Always load CPU socket 0 first To install new CPUs follow these steps 1 Ifthe CPU 0 ZIF socket is not exposed remove the ZIF socket pin cover from the cell board 2 Ensure that the cell board ZIF socket is in the unlocked position 3 Remove the CPU module from its packaging Removing and Replacing a Central Processing Unit 153 4 Remove the CPU module pin cover and inspect the pins for any damage ET NOTE Carefully remove pin cover to avoid any damage to the pins 5 Toexpose the ZIF socket peep hole through the turbo cooler slide the load screw sequencer toward the turbo cooler 6 Rotate the fan to expose the ZIF socket peep hole location See Figure 6 53 page 154 Figure 6 53 ZIF Socket Lock Unlock Peep Hole Locatio
232. t publication date and part number indicate the document s current edition The publication date changes when a new edition is published Minor changes may be made without changing the publication date The document part number will change when extensive changes are made Document updates may be issued between editions to correct errors or document product changes To ensure that you receive the updated or new editions you should subscribe to the appropriate product support service See your HP sales representative for details The latest version of this document can be found online at http www hp com go Integrity Servers docs Intended Audience This document is intended to provide technical product and support information for authorized service providers customer system administrators and HP support personnel New and Changed Information in This Edition This document has been updated with the latest HP styles and formatting Publishing History Table 1 lists the publishing history details for this document Table 1 Publishing History Details Document Manvfacturing Part Number Publication Date A7027 96002 September 2003 47027 96008 November 2003 47027 96013 May 2004 A7027 96022 October 2006 A7027 96036 May 2007 A7027 96036 ed6 October 2009 Document Organization The HP Integrity rx7620 User Service Guide is divided into several chapters each chapter contains information about servicing the HP Integrit
233. ted at the front of the PCI card cage toward the middle top portion of the server The fan assembly is a hot swappable component Removing and Replacing a PCI Smart Fan Assembly 109 A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 15 PCI Smart Fan Assembly Location e Table 6 3 Smart Fan Assembly LED Indications LED State Description On Green Fan is at speed and in sync or not at speed less than six seconds Flashing Fan is not keeping up with speed sync pulse for greater than six seconds Yellow Flashing Red Fan failed stalled or has run slow or fast for greater than six seconds Off Fan is not installed or no power is applied to fan Removing a PCI Smart Fan Assembly Figure 6 16 PCI Smart Fan Assembly Detail To remove a PCI smart fan assembly follow these steps 1 Remove the top cover 110 Removing and Replacing Components 2 Grasp the fan with thumb and forefinger while depressing the locking tab ET NOTE The two right side fans as viewed from the front are located very close to the chassis It might be necessary to use a tool such as a flatblade screwdriver to assist in removing them 3 Slide the fan upward from the chassis Replacing a PCI Smart Fan Assembly To replace a PCI smart fan assembly follow these steps 1 Carefully position the fan assembly
234. tegies procedures and tools for troubleshooting server error and fault conditions Common Installation Problems This section provides basic server troubleshooting information It is designed to help you diagnose common issues that can occur during server installation A CAUTION Replace the top cover before operating the server even for a short time Overheating can damage chips boards and mass storage devices However you can safely remove the PCI access panel while the server is running to remove and replace PCI hot plug boards For any other service activity requiring access to the processor baseboard or I O backplane power off the server and observe all safety precautions Most problems are the result of incorrect system and SCSI subsystem configurations To troubleshoot an installation problem perform the following checks in the order given 1 2 Check all cable and power connections including those in the rack Ensure the server is configured properly Check the Setup Utility If the error is a network related problem determine if the server has enough memory and hard disk drive capacity Verify all cables and boards are securely plugged in to the appropriate connectors or slots Remove all extra options such as disk drives one at a time checking the affect of each on the server Unplug the power cord wait 20 seconds plug in the power cord and restart the server If a hardware error is suspected follow th
235. tform management section Non Operating Environment The system is designed to withstand ambient temperatures between 40 to 70 C under non operating conditions Cooling Cell Section Cooling The cabinet incorporates front to back airflow across the cell boards and system backplane Two 150 mm fans mounted externally on the front chassis wall behind the cosmetic front bezel push air into the cell section and two 150 mm fans housed in cosmetic plastic fan carriers and mounted externally to the rear chassis wall pull air through the cell section Each cell area fan cooling is controlled by a smart fan control board embedded in the fan module plastic housing The smart fan control board receives fan control input from the system fan controller on the system backplane and returns fan status information to the system fan controller The smart fan control board also controls the power and the pulse width modulated control signal to the fan and monitors the speed indicator back from the fan The fan status LED is driven by the smart fan control board Bulk Power Supply Cooling Cooling for the bulk power supplies is provided by two 60 mm fans contained within each BPS Air flows into the front of the BPS and is exhausted out of the top of the power supply through upward facing vents near the rear of the supply The air is then ducted out of the rear of the chassis with minimal leakage into the cell airflow plenum Environmental Specification
236. the cover to the chassis Removing and Replacing a Side Cover It is necessary to remove and replace one or both of the side covers to access the components within the server chassis A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 4 Side Cover Locations Removing a Side Cover To remove the side cover follow these steps Removing and Replacing a Side Cover 101 Figure 6 5 Side Cover Retaining Screws 1 Loosen the retaining screw securing the cover to the chassis 2 Slide the cover from the chassis Figure 6 6 Side Cover Removal Detail Replacing a Side Cover To replace the side cover follow these steps 1 Slide the cover in position 2 The cover easily slides into position Use a slow firm pressure to properly seat the cover 3 Tighten the retaining screw to secure the cover to the chassis 102 Removing and Replacing Components Removing and Replacing a Disk Drive The disk drives are located in the front of the chassis You must shut down the nPartition to remove or replace the drive that serves as the boot disk if the boot disk is not mirrored For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 The remainder of the internal disk drives are hot pluggable A CAUTION Observe all ESD safety precautions before attempting this procedure F
237. the fins of the heatsink without leaving excess slack inside which could impede the fan On the soldered heatsink after routing the cable slide the clip onto the fin immediately next to where you routed the cable Secure the power cable in the clip The fan spins freely when seated properly with the fan power cable secured in the clip Removing and Replacing a Processor Turbo Cooler Fan 127 Plug the fan power cable into the cell board If so equipped replace the CPU cover and tighten all the captive screws If removed replace the DIMM cover and tighten all the captive screws Replace the cell board in the cabinet Use the MP CM gt PE option C to return 48V power to the cell board 10 Use the MP CM gt bo option to boot the partition DO o Nog go Removing and Replacing a Cell Board The cell board is located in the right side of the chassis The cell power must be turned off to replace this component For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 Cell boards are shipped with all four processors installed Should the old cell board to be replaced have fewer processors than the new cell board you will have to remove processors to match what was installed on the old cell board You must transfer the DIMMs from the old cell board to the new cell board A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions ca
238. thods described in this section For details on shutting down the SuSE Linux Enterprise Server operating system see Shutting Down Linux page 216 A CAUTION ACPI Configuration for SuSE Linux Enterprise Server Must Be default On nPartition capable HP Integrity servers to boot the SuSE Linux Enterprise Server operating system an nPartition must have its ACPI configuration value set to default At the EFI Shell enter the acpiconfig command with no arguments to list the current ACPI configuration If the acpiconfig value is not set to default SuSE Linux Enterprise Server could panic To set the ACPI configuration for SuSE Linux Enterprise Server at the EFI Shell enter the acpiconfig default command and then enter the reset command for the nPartition to reboot with the proper default configuration for SuSE Linux Enterprise Server To boot SuSE Linux Enterprise Server use either of these methods e Select a SuSE Linux Enterprise Server entry from the EFI Boot Manager menu To load the SuSE Linux Enterprise Server operating system at the EFI Boot Manager menu select its entry from the list of boot options Selecting a Linux entry from the boot options list boots the operating system using ELILO EFI loader and the e1ilo conf file e nvoke the ELILO EFI Linux loader from the EFI Shell For details see SuSE Linux Enterprise Server Operating System Booting from the EFI Shell page 213 On a SuSE Linux Enterprise S
239. tic electricity A CAUTION Connect to ground with a wrist strap Connection may be made to any grounded metal assembly in the cabinet Both you and the electronic devices must be grounded to avoid static discharges that can cause damage Take the following precautions e Prepare an ESD safe work surface large enough to accommodate the various assemblies handled during the upgrade Use a grounding mat and an anti static wrist strap such as those included in the ESD Field Service Kit A3024 80004 e The anti static bag cannot function as a static dissipating mat Do not use the anti static bag for any other purpose than to enclose a product e Treat all assemblies components and interface connections as static sensitive e When unpacking cards interfaces and other accessories that are packaged separately from the server keep the accessories in the conductive plastic bags until you are ready to install them e Avoid working in carpeted areas and keep body movement to a minimum while installing accessories Shutting Down nPartitions and Powering Off Hardware Components When you remove and replace hardware you may need to shut down one or more nPartitions on the server In some cases you will also need to power off hardware components as part of the remove and replace procedure 96 Removing and Replacing Components This section gives details on how to ensure that the nPartiton is properly shut down and it also describes how
240. ting Server Management Behavior This section describes how the system responds to over temperature situations how the firmware controls and monitors fans and how it controls power to the server Thermal Monitoring The manageability firmware is responsible for monitoring the ambient temperature in the server and taking appropriate action if this temperature becomes too high To this end the ambient temperature of the server is broken into four ranges normal overtemp low OTL overtemp medium OTM and overtemp high OTH Figure 5 11 shows the actions taken at each range transition Actions for increasing temperatures are shown on the left actions for decreasing temps are shown on the right Figure 5 11 Temperature States l oe Send Chassis Code Send Chassis Code Shut Down 48v OTM Send Chassis Code Send Chassis Code Send signal to the OS Send signal to the OS OTL Send Chassis Code Fan Speed NORMAL Fan Speed HIGH Narmal lai Baa On large temperature swings the server transitions through all the states in order It might go to the following state immediately but each of the preceding actions will occur If the temperature reaches the highest range the server shuts down immediately by the manageability firmware Fan Control There are three sets of fans in the system those on the I O bay the front and rear fans that are connected to the main backplane and those on the cell bo
241. tion IT Modify command interface inactivity time out LC Configure LAN connections LS Display LAN connected console status PARPERM Enable disable interpartition security PD Modify default Partition for this login session PWRGRD Enables you to configure the power grid RL Re key complex profile lock RU Reset MP bus device SA Display and set MP remote access SO Configure security options and access control XD MP diagnostic and reboot Management Processor Commands 89 Updating Firmware The server MP pulls a firmware update from an FTP server over the management LAN When replacing a cell board to a currently operating system see Cell Break Fix Upgrade and Downgrade Procedure page 132 Instructions e Log into the server console through the LAN local serial or remote serial locations e Issue the FW command to start the firmware update FW Firmware Update e Access Level Administrator e Scope Complex e Description This command prompts you for the location of the firmware software and the FLASH handle from a list which represents all upgradeable entities Once you reply Y to the confirmation request the firmware update firmware makes the connection to the FTP server at the IP address given using you and password details supplied The appropriate files are downloaded and burned into the selected Flash memories Note that the firmware update validates the image to determine that the image name supplied is that of a vali
242. tn 163 HP Integrity rx7620 Server Field Replaceable Unit FRU List esee 171 HP Integrity rx7620 Server Dimensions and Weights is etie ten Rb pl tet terere derit ides 175 HP Integrity rx7620 Server Component WerEhts oeste terere n Rae os mes ra epe eu mu ERE ERR 175 ROWE Cords eresas a tet tese A E a eee rea 176 AC Power Specifications sissioni i gc E E odi EEES cea e E 176 Typical HP Integrity rx7620 Server Configurations urere rer mri casts Deuter ETE ree kg 178 Example Weight SUIDEDSEV od tstse eee lattes doloe SRM aU E EEE etn e RD UN ME MPO 179 Weight SUNIL Yeo tecto eens ria Feb ber Ret Rega cra a etl te up Na d quU eH a Rt E ERA EVE 180 Computer Room EnvIrODINefib so cay faces ih vcs kr tree tn tei va acne aay rV EE di ue 188 Effect of Humidity on ESD Charge Levels cieeescio tinte Rien ipeo to reet Rete ta ean tt ouedbons 190 Floor Loading Term DennittOns seo pedore pe DLP pR Eb EEAS kb em euo dues 191 Typical Raised Floor Speciti ca bons sic ios Lh EP proe s t bb elige dep die Rea lp idet enes 192 Customer and HP Information ccccccccccccccccccsecccececsccssccsccssceueccsseusecsseusccsseusecsseuusessseuuesess 200 Site Inspection Checklist i e na tot etti er ti eepacc s ace I iade iets ta uve dept caters 200 List of Tables About This Document This document describes how to troubleshoot and diagnose server problems and remove and replace server components for the HP Integrity rx7620 server The documen
243. to this component before attempting to remove or replace it For more information see Shutting Down nPartitions and Powering Off Hardware Components page 96 104 Removing and Replacing Components A CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 9 CD DVD DAT Location CD DVD DAT Removing a CD DVD DAT Drive Figure 6 10 CD DVD DAT Detail To remove the CD DVD DAT drive follow these steps 1 Depress the front locking latch to loosen the drive from the chassis Removing and Replacing a CD DVD DAT Drive 105 2 Disengage the cables from the rear of the CD DVD DAT 3 Remove the rails and clips from the drive 4 Slide the drive from the chassis Replacing a CD DVD DAT Drive To replace the CD DVD DAT drive follow these steps 1 Attach the rails and clips to the drive 2 Connectthe cables to the rear of the CD DVD DAT 3 Slide the drive into the chassis A CAUTION Before attempting to install the drive into the chassis position the data cable over the top of the drive to avoid pinching the cable during installation 4 The drive easily slides into the chassis Use a slow firm pressure to properly seat the drive Removing and Replacing a Front Smart Fan Assembly The front smart fan assembly is located in the front of the chassis The fan assembly is a hot swappable component A CAU
244. to check the current ACPI configuration setting however soft powerdown information displays only when different from normal behavior To change the nPartition behavior when an OS is shutdown and halted use either the acpiconfig enable softpowerdown EFI Shell command ortheacpiconfig disable softpowerdown command and then reset the nPartition to make the ACPI configuration change take effect acpiconfig enable softpowerdown Whenset acpiconfig enable softpowerdown causes nPartition hardware to be powered off when the operating system issues a shutdown for reconfig command for example shutdown hor shutdown s This is the normal behavior with a windows ACPI configuration setting When softpowerdown is enabled on an rx7620 server if one nPartition is defined in the server halting the operating system powers off the server cabinet including all cells and I O chassis On an rx7620 server with multiple nPartitions halting the operating system from an nPartition with softpowerdown enabled causes only the resources on the local nPartition to be powered off To power on hardware that has been powered off use the PE command at the MP command menu acpiconfig disable softpowerdown When set acpiconfig disable softpowerdown causes nPartition cells to remain at a boot is blocked state when the operating system issues a shutdown for reconfig command for example shutdown hor shutdown s In this case an OS shutdown for reconfig mak
245. tronic components be sure that either power is removed or safety precautions are followed to protect against electric shock and equipment damage Observe all WARNING and CAUTION labels on equipment All installation and service work must be done by qualified personnel Communications Interference HP system compliance tests are conducted with HP supported peripheral devices and shielded cables such as those received with the system The system meets interference requirements of all countries in which it is sold These requirements provide reasonable protection against interference with radio and television communications Installing and using the system in strict accordance with HP instructions minimizes the chances that the system will cause radio or television interference However HP does not guarantee that the system will not interfere with radio and television reception Take the following precautions e Use only shielded cables e Install and route the cables per the instructions provided e Ensure that all cable connector screws are firmly tightened e Use only HP supported peripheral devices e Ensure that all panels and cover plates are in place and secure before system operation Electrostatic Discharge HP systems and peripherals contain assemblies and components that are sensitive to electrostatic discharge ESD Carefully observe the precautions and recommended procedures in this guide to prevent component damage from sta
246. ttached to the chassis Replace all the PCI MRLs one at a time beginning at the right most clip position Ensure that the PCI MRL is in the OPEN position before inserting the bottom pivot pin into the hole in the chassis Press the PCI MRL axle into the retaining clip Flip all the PCI MRLs to the CLOSED position Reconnect the PCI OLR cable to the PCI OLR assembly Be sure that the connector is inserted with the correct polarity orientation Replace the PCI access panel Replace the top and right side covers Reconnect all power cables and power on the server 118 Removing and Replacing Components Removing and Replacing a PCI PCI X Card A 7 The PCI PCI X cards are located in the rear of the chassis in the PCI X card cage PCI PCI X cards are hot pluggable components CAUTION Observe all ESD safety precautions before attempting this procedure Failure to follow ESD safety precautions can result in damage to the server Figure 6 26 PCI PCI X Card Location PCI PCI X Cards PCI PCI X I O cards can be removed and replaced by using the SAM usr sbin sam application or by using Partition Manager opt parmgr bin parmgr This procedure describes how to perform an online replacement of a PCI PCI X card using SAM for cards whose drivers support online add or replacement OLAR IMPORTANT Some PCI PCI X I O cards cannot be added or replaced online while HP UX remains running For these cards you must shut down
247. ttp www informit com imprint series detail aspx st 61305 Contacting HP Before You Contact HP Be sure to have the following information available before you contact HP e Technical support registration number if applicable e Product serial number e Product model name and number e Product identification number e Applicable error message e Add on boards or hardware e Third party hardware or software e Operating system type and revision level HP Contact Information For the name of the nearest HP authorized reseller e Inthe United States see the HP US service locator webpage http welcome hp com country us en wwcontact html e Inother locations see the Contact HP worldwide in English webpage http welcome hp com country us en w wcontact html For HP technical support e Inthe United States for contact options see the Contact HP United States webpage http welcome hp com country us en contact us html To contact HP by phone Call 1 800 HP INV ENT 1 800 474 6836 This service is available 24 hours a day 7 days a week For continuous quality improvement calls may be recorded or monitored Ifyou have purchased a Care Pack service upgrade call 1 800 633 3600 For more information about Care Packs see the HP website http www hp com hps e Inother locations see the Contact HP worldwide in English webpage http welcome hp com country us en wwcontact html Subscription Service
248. two different transformers or two different UPS devices Voltage potentials from ground pin to ground pin for these sources should be measured and verified to be at or near 0 0 volts Voltage levels that deviate or are measured above 3 0 volts should be further investigated increased voltages might be hazardous to personnel and should be further investigated Cabinet Performance Grounding High Frequency Ground Signal interconnects between system cabinets require high frequency ground return paths Connect all cabinets to site ground ET NOTE In some cases power distribution system green green yellow wire ground conductors are too long and inductive to provide adequate high frequency ground return paths Therefore the server is shipped with a ground strap for connecting the system cabinet to the site grounding grid customer supplied When connecting this ground ensure that the raised floor is properly grounded Power panels located in close proximity to the computer equipment should also be connected to the site grounding grid Methods of providing a sufficiently high frequency ground grid are described in the next sections Raised Floor High Frequency Noise Grounding If a raised floor system is used install a complete signal reference grid for maintaining equal potential over a broad band of frequencies The grid should be connected to the equipment cabinet and electrical service entrance ground at multiple connection
249. ty rx7620 Server contains four C20 power receptacles located at the bottom rear bulkhead A minimum of two power cords must be used to maintain normal operation of the HP Integrity rx7620 Server A second set of two cords can be added to improve system availability Dimensions and Weights 175 by protecting for example against power source failures or accidentally tripped circuit breakers The HP Integrity rx7620 Server can receive AC input from two different AC power sources System AC Power Specifications Power Cords Table B 3 lists the various power cables available for use with a HP Integrity rx7620 Server Each power cord is 15 feet 4 5 meters in length with a IEC 60320 1 C19 female connector attached to one end Table B 3 Power Cords Part Number Description Where Used 8120 6895 Stripped end 240 volt International Other 8120 6897 Male IEC309 240 volt International Europe 8121 0070 Male GB 1002 240 volts China 8120 6903 Male NEMA L6 20 240 volt North America Japan System Power Specifications Table B 4 lists the AC power requirements for an HP Integrity rx7620 Server These tables provide information to help determine the amount of AC power needed for your computer room Table B 4 AC Power Specifications Requirements Value Comments Nominal input voltage 200 208 220 230 240 VAC rms Frequency range minimum maximum 50 60 Hz Nu
250. uesvscchossvececevsvsedeevedecsshcsvsecbovevedsstesvsedee evecesvesecels 23 DIMMS aa a 24 Main Memory Performante c tsavs casts svetesuianedeltvesceesn teamed EEEE E AT EEEE RES hae Eini 24 Valid Memory Configuration Ss e ees impr e Reese eer isinen ava sea ree eso nr Rea i 24 cGellsaandmnPartitions 4s e olea Er eee e i PE ELE EP En ose D e EE EE E I CERE Da 26 Internal Disk Devices for the HP Integrity rx7620 Server user rien eb eret en bye tea er ER e 26 MP SCSI Core TAI Boar ae e oed eta tee vet tete ta aeui eeehtes teste aves e Don ee Us 27 Proc rium LAN SCSI Board eet eo tea tes bea da os pte Ee Dra eet edes oe wes 27 Mass ototage Disk Back plane res sanirati niani er ee pese hu xad ti eee RR Ratte 27 Server Descriptio N inneren enra aS celeris pu ETAN EE EEA E E E be EA EA ERA tope 27 Dimensions diete EE E A EEE teat t E EA E EN EEE tuat AEA 27 System Chassis sssri ranse n a ten uto clic ERa E eea EE R eta ATEA EEN E 27 2 Unpacking Ahe SERVER mesnin a rina E a iaa liat 31 Unpacking a Racked Servers sso ege tegens ver ee ie it Ena ETE dinge EE EN E ar Tan 31 Securing The Cabinet Lui sa ane e qai ni rs E EERE n en na oU E 34 Unpacking a Non Racked Server ee puseoece eet i irei iii iid e iai a ieanie 35 Unloading With Lifters eenia tia ec utres a eet ete Rau EE E dp udi E ATESAT wade 35 Unloading With Lift Handle Paneles erepto p D POE rx ipee npe ue Rv run pue dou e de 37 Installing the Server Into the Rack usto det tedio ceste tb e
251. uipment Grounding Implementation Details To connect all HP equipment cabinets to the site ground grid follow these steps 1 Attach one end of each ground strap to the applicable cabinet ground lug 2 Attach the other end to the nearest pedestal base raised floor or cable trough ground point nonraised floor Electrical Factors 185 3 Check that the braid contact on each end of the ground straps consists of a terminal and connection hardware a 0 25 in 6 0 mm bolt nuts and washers 4 Checkthat the braid contact connection points are free of paint or other insulating material and are treated with a contact enhancement compound similar to Burndy Penetrox System Installation Guidelines ET This section contains information about installation practices Some common problems are highlighted Both power cable and data communications cable installations are discussed NOTE In domestic installations the proper receptacles should be installed prior to the arrival of HP equipment For installation procedures see the appropriate installation guide Wiring Connections A Expansion and contraction rates vary among different metals Therefore the integrity of an electrical connection depends on the restraining force applied Connections that are too tight compress or deform the hardware and causes it to weaken This usually leads to high impedance causing circuit breakers to trip CAUTION Connections that are too loose ha
252. ure to follow ESD safety precautions can result in damage to the server Figure 6 69 Front Panel Assembly Location Removing the PCA Front Panel Board To remove the PCA front panel board follow these steps 1 OL aR G2 NS 10 Follow proper procedures to power off the server Remove the front bezel and the top and left side covers Disconnect the DVD power cable from the mass storage backplane Disconnect the front panel cable from the system backplane Unscrew the captive fastener on the common tray cage cover The cover has two ferrites with cables attached to it Slide the common tray cage cover to the rear and lift Place the cable as far back as possible to enhance access to the front panel Remove the front panel bezel by removing the two M3 screws After the screws are removed press the tab in the center of the bezel to release the bezel Remove the two screws revealed upon removing the bezel Place your right hand on the PCA front panel cable near the entrance to the cavity With your left hand reach over the top of the chassis and by curling your fingers reach into the cavity containing the PCA front panel The PCA front panel bracket has a small sheet metal wall that acts as a handle This handle is located at the center of the height and width relative to the cavity Place your left hand under the handle and simultaneously gently lift the handle upward and pull on the cable This action disengages the tabs o
253. ve a high resistance that can cause serious problems such as erratic equipment operation A high resistance connection can overheat and cause fire or high temperatures that can destroy hard to replace components such as distribution panels or system bus bars Wiring connections must be properly torqued Many equipment manufacturers specify the proper connection torque values for their hardware Ground connections must only be made on a conductive nonpainted surface When equipment vibration is present lockwashers must be used on all connections to prevent connection hardware from loosening Data Communications Cables Power transformers and heavy foot traffic create high energy fields Route data communications cables away from these areas Use shielded data communications cables that meet approved industry standards to reduce the effects of external fields Environmental Elements The following environmental elements can affect server installation e Computer room preparation e Cooling requirements e Humidity level e Air conditioning ducts e Dust and pollution control e Metallic particle contamination e Electrostatic discharge ESD prevention e Acoustics noise reduction Computer Room Preparation The following guidelines are recommended when preparing a computer room for the server e Locate the computer room away from the exterior walls of the building to avoid the heat gain from windows and exterior wall surfaces
254. ve and cable into the removable media drive bay Push the drive until it is fully seated in the bay 18 Replace the front bezel and top cover See Removing and Replacing the Front Bezel page 99 and see Removing and Replacing the Top Cover page 99 19 Power on the server 20 Boot the operating system 21 Install the appropriate device drivers Use the installation instructions that come packaged with the drive to install device drivers 54 Installing Additional Components 4 Cable Connections This chapter describes cable connections within the server AC Input Power The server has five line cord configurations e All four line cords preferred configuration e Cords A0 and A1 only e Cords BO and B1 only e Cords A0 and BO only e Cords A1 and B1 only A single line cord configuration is not allowed Figure 4 1 Power Cord Configuration AO Al BO B1 The power cord configuration is passed to the operating system using the pwrgrd Power Grid command Each of the five selections in the pwrgrd command matches one of the configurations The appropriate option should be selected for the actual line cord configuration With the correct configuration selected the LEDs should be green When the pwrgrd command is invoked the following menu displays prompt pwrgrd Power grid configuration preference 1 Grid A only Cords AO BO required 2 Grid B only Cords A1 B1 required 3 Grids A amp B Cords AO A1 B0 B1
255. ver power to ON 11 Check that the indicator light on each power supply is lit MP Core I O Connections Each HP Integrity rx7620 Server can have up to two MP core I O board sets installed This allows for two partitions to be operating or allows MP core I O redundancy in a single partition configuration Each MP core I O board set consists of two boards the MP SCSI board and the LAN SCSI board The MP SCSI board is oriented vertically and accessed from the back of the server The LAN SCSI is accessed from the PCI expansion card bay Only the primary MP core I O board set MP SCSI slot 1 and LAN SCSI slot 8 chassis 1 is required for a single partition implementation The secondary MP SCSI board is not necessary for full operation however without the secondary MP SCSI board only two internal disks can be accessed MP SCSI Connections The MP SCSI board is required to update firmware access the console turn partition power on or off access all but two of the internal peripherals and utilize other features of the system Connections to the MP SCSI board include the following 60 Cable Connections e DB25 connector by way of the M cable This RS 232 connector provides connections for a local console external modem and a UPS The server end of the M cable terminates in a DB25 connector The opposite side of the cable terminates in three DB9 connectors labeled CONSOLE UPS and REMOTE e 10 100 Base T LAN RJ45 connector for LAN and
256. web console access This LAN uses standby power and is active when AC is present and the front panel power switch is off e Internal LVD Ultra 160 SCSI channel for connections to internal mass storage e Internal SE Ultra SCSI channel for connection to an internal removable media device LAN SCSI Connections The LAN SCSI board is a PCI form factor card that provides the basic external I O connectivity for the system Connections to the LAN SCSI board include the following e PCI X to PCI X bridge for multi device compatibility e Internal LVD Ultra 160 SCSI channel for connections to internal mass storage e External LVD Ultra 160 SCSI channel connected to a 68 pin VHDCI connector e 10 100 1000 Base T LAN RJ45 connector The primary LAN interface is located on the LAN SCSI board installed in the rightmost slot when viewing the system from the back Management Processor Access A NOTE To access the MP for the initial installation the M cable must first be connected to the DB25 connector located on the primary MP SCSI board The primary MP SCSI board is located in the lower MP SCSI board slot Setting Up the Customer Engineer Tool PC The Customer Engineer CE Tool is usually a laptop It enables communication with the MP in the HP Integrity rx7620 Server The MP monitors the activity of either a one partition or a multiple partition configuration During installation communicating with the MP enables such tasks as e
257. wer switch at the front of the server to On The following events occur e Power is applied to the server e Processor Dependent Code PDC starts to run on each cell e The cell self test executes e Hardware initializes for the server e Console communication is established 2 When activity on the Reflection screen stops return to the MP Main Menu by entering Ctrl B 3 To enter console mode enter co 4 Enter the partition number of the partition to boot 5 Press Enter Selecting a Boot Partition Using the MP At this point in the installation process the hardware is set up the MP is connected to the LAN the AC and DC power have been turned on and the self test is completed Now you can verify the configuration After the DC power is on and the self test is complete use the MP to select a boot partition Booting the HP Integrity rx7620 Server 69 From the MP Main Menu enter cm From the MP Command Menu enter bo Select the partition to boot Partitions may be booted in any order Return to the MP Main menu by entering ma from the MP Command menu Exit the MP by entering co at the MP Main Menu Exiting the MP automatically returns you to the Extensible Firmware Interface EFI shell menu gr o mom Verifying the System Configuration Using the EFI Shell From the EFI main menu enter the POSSE shell by entering co To list all the command categories available in the shell enter help as follows Configuration Access
258. wing list describes the operating systems supported on nPartition capable models e HP Integrity servers have Intel Itanium 2 processors and include the following nPartition capable models HP Integrity Superdome SD16A SD32A and SD64A models HP rx8620 HP rx7620 These HP Integrity servers run the following operating systems HP UX 11i Version 2 B 11 23 See Booting HP UX page 207 Microsoft Windows Server 2003 See Booting the Microsoft Windows Operating System page 211 Red Hat Enterprise Linux 3 Update 2 and Red Hat Enterprise Linux 3 Update 3 See Booting the Red Hat Linux Operating System page 212 SuSE Linux Enterprise Server 9 See Booting the SuSE Linux Enterprise Server Operating System page 213 System Boot Configuration Options This section briefly discusses the system boot options you can configure on nPartition capable servers You can configure boot options that are specific to each nPartition in the server complex HP Integrity Boot Configuration Options On nPartition capable HP Integrity servers you must properly specify the ACPI configuration value which affects the OS startup process and on some servers can affect the shutdown behavior You also can configure boot device paths and the autoboot setting for the nPartition Details are given in the following list e Boot Options List HP Integrity Server Boot Device Paths You can mana
259. y sO CAE ORs o e eee t ertet Ee um he ashe Ri UE RR Rein REN ERU EE RTT 167 Front Papel Board Det il 2 Ie tirer tree reves reso bo Eee vo ge Eve eva o eevt vedesuay RE Prev eR dx RR RES 168 Front Panel Board Cable Location on Backplane tc ier rte mte te dbi esp rscuas 169 Airflow Di gtaM T tod 179 Raised Floor Ground Systema usu etesces ue rte in tu tes et dete REOR ne EX E Ge van NR REA Ne Dx Re NEEE RAN EN ERa 185 Cabinet Dimensions ett ter oec bec ede Ue edes exe E eere vocet ee tnb o edes oo eoe e nee E reve A boe ede Ue eeu Ene Dee 193 BOO EAT EEEE E E E E E EEEE 194 Planne Giidi Ct 195 C20 Male Receptacle at power supply etie e enr teet Cue ai eret eere sei eto des 196 C19 Female Plug on one end of the power CORA esi eerte b vn lem dots e tenons 196 Unterminated Bae cece ss eeu vga cebu een dope a eate dinge iu ER Oe e aaa gion oes orc tn aep t 196 1 6 20 Picos eue mac ba aded brem PERLE ENT REP uty NEP eM ARP eder ORIS EHROS MuR Osee BT 196 deci Mui we ucticst aa Go Basie wdc da eee con e va Ea EEEE EE E annus gage ai 196 STE LARUM 197 EN ME EN 197 NEMA 5 20P Plug on left receptacle on 119 Db ceo vtero re eee bep ees vespa riego 197 ISE32 Pl p M v owt 197 GED MPU a css MR 198 6 20 Power Cable 45 5 e tette tnodo eise ve debs vada doe eb ta Pee o tot Eee ve abre e ver ATNA 198 Delivery Survey Part Ijiner s
260. y rx7620 The appendixes contain supplemental information Typographic Conventions This document uses the following conventions or A percent sign represents the C shell system prompt A dollar sign represents the system prompt for the Bourne Korn and POSIX shells A number sign represents the superuser prompt Command A command name or qualified command phrase Computer output Text displayed by the computer Intended Audience 13 Ctri x ENVIRONMENT VARIABLE ERROR NAME Key Term User input Variable 9 WARNING CAUTION IMPORTANT NOTE Related Documents 14 A key sequence A sequence such as Ctrl x indicates that you must hold down the key labeled Ctrl while you press another key or mouse button The name of an environment variable for example PATH The name of an error usually returned in the errno variable The name of a keyboard key Return and Enter both refer to the same key The defined use of an important word or phrase Commands and other text that you type The name of a placeholder in a command function or other syntax display that you replace with an actual value The contents are optional in syntax If the contents are a list separated by you must choose one of the items The contents are required in syntax If the contents are a list separated by you must choose one of the items The preceding element can be repeated an arbitrary number of times Indicates t
261. ying tiles e Use conductive wax if waxed floors are necessary e Ensure that all equipment and flooring are properly grounded and are at the same ground potential e Use conductive tables and chairs 190 General Site Preparation Guidelines e Usea grounded wrist strap or other grounding method when handling circuit boards e Store spare electronic modules in antistatic containers Maintain recommended humidity level and airflow rates in the computer room Acoustics Computer equipment and air conditioning blowers cause computer rooms to be noisy Ambient noise level in a computer room can be reduced as follows e Cover the ceiling with a commercial grade of fire resistant acoustic rated fiberglass ceiling tile e Cover the walls with curtains or other sound deadening material e Use foam rubber models as removable partitions for most effectiveness Facility Characteristics This section contains information about facility characteristics that must be considered for the installation or operation of the server Facility characteristics are e Floor loading e Windows e Altitude effects Floor Loading The computer room floor must be able to support the total weight of the installed computer system as well as the weight of the individual cabinets as they are moved into position Floor loading is usually not an issue in nonraised floor installations The information presented in this section is directed toward raised floor installati

HP Integrity rx7620 Server User Service Guide

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