Contents About This Document...................14 Intended Audience..........................14 New and Changed Information in This Edition...................14 Publishing History..........................14 Document Organization........................14 1 Overview......................16 Server Subsystems..........................16 I/O..............................16 PCI/PCI-X IOBP........................17 PCI/PCI-X/PCIe IOBP......................18 PCIe MPS Optimization......................19 Processor............................19 Memory............................20 Add-On Memory........................21 Cooling............................22 Power............................23 Front Display Panel, DVD, and Diagnostic Panel.................25 Mass Storage..........................25 Firmware.............................26 User Interface..........................27...
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Unpacking the Server........................44 Checking the Inventory........................44 Returning Damaged Equipment....................45 Unloading the Server with a Lifter....................45 Installing Additional Components.......................45 Removing and Replacing the Top Cover..................45 Removing the Top Cover......................45 Replacing the Top Cover......................46 Removing and Replacing the Memory Carrier Assembly Cover...........47 Removing the Memory Carrier Assembly Cover..............47 Replacing the Memory Carrier Assembly Cover..............47 Installing a Hot-Swappable Power Supply..................48...
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Determining the iLO 2 MP LAN Configuration Method............79 Configuring the iLO 2 MP LAN Using DHCP and DNS..............80 Configuring the iLO 2 MP LAN Using ARP Ping................81 Configuring the iLO 2 MP LAN Using the RS-232 Serial Port............82 Logging In to the iLO 2 MP......................83 Additional Setup..........................84 Modifying User Accounts and Default Password..............84 Setting Up Security........................85...
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4 Booting and Shutting Down the Operating System.........117 Configuring System Boot Options.....................117 Booting and Shutting Down HP-UX....................119 Adding HP-UX to the Boot Options List..................119 Booting HP-UX in Standard Mode....................120 Booting HP-UX From the EFI Boot Manager.................120 Booting HP-UX From the EFI Shell..................121 Booting HP-UX in Single-User Mode..................122...
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Online Support Tools List.......................145 Linux Online Support Tools......................146 Offline Support Tools List......................146 General Diagnostic Tools......................147 Fault Management Overview......................147 HP-UX Fault Management......................147 WBEM indication providers and EMS Hardware Monitors.............148 Errors and Reading Error Logs......................148 Event Log Definitions........................148 Using Event Logs........................148 iLO 2 MP Event Logs........................149 System Event Log (SEL) Review....................149...
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Manageability Reset Button on Core I/O Board FRU’s Bulkhead..........168 Manageability Status LED......................168 I/O Subsystem (SAS/SATA/SCSI/DVD/HDD/Core I/O)..............168 Verifying Hard Disk Drive Operation....................168 LAN LEDs............................169 HBA Bulkhead LAN LEDs......................169 LAN A Connector LEDs....................169 LAN B Connector LEDs....................169 Booting .............................170 Firmware............................171 Identifying and Troubleshooting Firmware Problems..............171 Updates............................171 Server Interface (System Console)....................172 Troubleshooting Tips........................172...
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Removing and Replacing a Hot-Pluggable PCI/PCI-X/PCIe Card...........192 PCI/PCI-X/PCIe Configurations....................194 PCI/PCI-X/PCIe Card Path Logging..................196 Online Addition (OLA)........................199 Online Replacement (OLR)......................200 Removing a PCI/PCI-X/PCIe Card Offline...................201 Installing a PCI/PCI-X/PCIe Card Offline..................201 Removing and Replacing the DVD Drive..................202 Removing the DVD Drive......................202 Replacing the DVD Drive......................203 Removing and Replacing the Memory Carrier Assembly..............203 Removing the Memory Carrier Assembly..................204 Replacing the Memory Carrier Assembly..................205...
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Installing the HPE Eight-Internal Port SAS Host Bus Adapter............269 Installing the HPE Smart Array P600..................270 Installing the HPE Smart Array P400..................271 Completing the Adapter Installation on HP-UX..............272 Completing the Adapter Installation on Windows and Linux..........274 Installing the HPE Smart Array P800..................275 Windows Installation......................275...
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MPTUTIL Utility...........................282 Flashing Firmware on First Controller..................283 Flashing BIOS and EFI Driver on the First Controller............283 Common Questions About Flashing Firmware..............283 Viewing the VPD Information for EFI Driver and RISC Firmware..........284 EFI Commands..........................284 DRVCFG Utility........................284 Starting the DRVCFG Utility....................284 Using the DRVCFG Utility....................284 Configuration Utility Screens.....................285 DRVCFG Screens......................285 CFGGEN Utility........................298...
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Syntax............................323 Parameters..........................323 Notes............................323 ioconfig............................324 Syntax............................324 Parameters..........................324 Operation..........................324 default............................325 Syntax............................325 Parameters..........................325 Operation..........................325 errdump............................325 Syntax............................326 Parameters..........................326 Operation..........................326 info...............................326 Syntax............................326 Parameters..........................326 lanaddress...........................332 Syntax:...........................332 Parameters..........................332 monarch............................332 Syntax............................332 Parameters..........................332 Operation..........................333 pdt..............................333 Syntax............................333 Parameters..........................333 Operation..........................333 sysmode............................334 Syntax............................334 Parameters..........................334 Operation..........................334 Specifying SCSI Parameters......................335 Using the SCSI Setup Utility......................335 Using the Boot Option Maintenance Menu..................341 Paths............................341 Boot From a File........................342...
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Turkey RoHS material content declaration..................349 Ukraine RoHS material content declaration................349 Index........................350 Contents...
April 2009 AB464-9002C_ed8 January 2010 AB464-9002C_ed9 July 2010 AB464-9002D November 2011 AB464-9003E November 2012 AB464-9003F February 2016 Document Organization This guide is divided into several chapters; each chapter contains information about servicing the Integrity rx6600 server. The appendixes contain supplemental information.
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“Overview” (page 16) Use this chapter to develop a high-level understanding of the major server subsystems. “System Specifications” (page 38) This chapter contains server specifications, including features and weights. “Installing the System” (page 43) Use this chapter to learn how to install the system. “Booting and Shutting Down the This chapter provides information on how to boot and shut Operating System”...
1 Overview The Integrity rx6600 server is a high performance, high availability server that provides the following features: Form factor — 7U rack- or pedestal-installed Internal peripherals — serial-attached SCSI (SAS) hard drives and a DVD or DVD+RW drive High availability components — hot-swappable dual-rotor N+1 fans, 1+1 hot-swappable power supplies, and hot-pluggable PCI-X or PCIe cards and SAS drives Processors —...
Figure 1 I/O Subsystem Block Diagram Figure 2 (page 17) is a block diagram of the PCI/PCI-X/PCIe I/O subsystem. Figure 2 PCI/PCI-X/PCIe I/O Subsystem Block Diagram PCI/PCI-X IOBP On the 10 slot PCI/PCI-X IOBP there are a total 8 Public slots (PCI-X mode1/2), 2 Private Fast-core slots (PCI-X mode1), and 1 Private Slow-core UCIO slot (PCI 32-bit/33-MHz).
Four 66-MHz PCI/PCI-X slots are shared in groups of two. Shared slots have many speed and mode change restrictions during hot-plug add or remove operations. For more information on PCI/PCI-X card configuration and restrictions, see “PCI/PCI-X/PCIe Configurations” (page 194). Four of the server PCI/PCI-X slots are not shared. Two of the nonshared slots are 133 MHz PCI/PCI-X, and two of the slots are 266-MHz PCI/PCI-X.
Larger MPS values can enable the optimization to gain higher performance. MPS Optimization is supported on PCIe systems running HP-UX, OpenVMS, and Linux. System firmware level greater than 02.03 performs an optimization during boot time to set the MPS value to the largest size supported by both a PCIe root port and the devices below it.
processor board is mounted on a removable carrier tray that is attached to the processor board access door. Access this assembly from the front of the server after the memory carrier is removed. Memory The server DIMMS are seated on memory boards that are enclosed in an extractable memory carrier assembly.
USB Bus Driver: 00000020 USB Bot Mass Storage Driver: 00000020 Generic USB Mass Storage Driver: 00000020 CLPrelay App: 00000100 * Indicates active system firmware image. In this case =>3.02 indicates that this server does not need system firmware updated to use the memory modules described in this document. The firmware upgrade instructions are included in the Release Notes on the firmware package download page for your server product.
Figure 4 Fan Units The server has the following cooling components: Thermal sensor in the front panel [0xd8] that measures inlet ambient air temperature. Up to four dual processors each with its own thermal register [0xd9, 0xda], measuring internal die temperature. Intrusion sensor, located on the common display pca, and held in contact mode by the top cover.
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Figure 5 Power Subsystem Block Diagram Two hot-swappable AC/DC power supplies generate main system power and standby power voltage. One active power supply is sufficient to operate the system at maximum load. Each power supply receives AC power through the integrated AC inlet. The system can operate at 180-264 V AC and achieve 1+1 redundancy.
Check for a BPS0_AC_OK or a BPS1_AC_OK signal. If neither is asserted, then the AC supply has a problem. If any FRUs are missing or both AC supplies are not valid, then return to power off state. Initialize I/O Expander settings prior to turning on power. Set Power Sequencer Order.
Backplane board Core I/O cards The server supports up to 16 SAS hard drives, each with LEDs that indicate drive activity and device status, and an LED used to locate each drive. Additionally, there is a set of slot availability LEDs positioned in the middle of the disk drive bays on the front of the chassis.
The firmware supports HP-UX 11i version 2, June 2006 release, Linux®, Windows®, and OpenVMS 8.3 operating systems through the Itanium processor family standards and extensions, and has no operating system-specific functionality included. All operating systems are presented with the same interface to system firmware, and all features are available to the operating system.
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Figure 7 Front Panel Control, Port, and LED Locations Table 7 lists the front panel controls and LED states. Table 7 Front Panel Controls and LEDs Function States Status Manually powers the server No AC power on and off. Power Button Green Full power is on Yellow...
Table 7 Front Panel Controls and LEDs (continued) Function States Status Indicates the status of System is off internal serviceable Green System health is good components. This LED maintains its state when the Flashing amber System health is degraded system is in standby mode (system power turned off Flashing red System health is critical...
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Figure 9 Hot-Pluggable Disk Drive LEDs Table 8 lists the hot-pluggable disk drive LEDs and states in RAID mode. Table 8 Behaviour of Hot-Pluggable Disk Drive LEDs in RAID mode Activity LED Status LED Disk Drive State Offline or not configured Solid green Normal operation;...
The Drive Status LED is blue when you use various software utilities, such as online diagnostics and SAS drive configuration tools. Hot-Pluggable Disk Drive Slot Availability LEDs The hot-pluggable disk drive slot availability LEDs are located on the front bezel in the center of the two groups of eight SAS disk drive slots (Figure 10).
Figure 12 Diagnostic Panel Label and LEDs Rear Panel The server rear panel includes communication ports, I/O ports, AC power connectors, and the locator LED/button. LEDs located on the rear panel of the server indicate the operational status of the following components: iLO 2 MP System LAN Power supply...
Figure 13 Rear Panel Control, Port, and LED Locations iLO 2 MP The server contains an iLO 2 MP on the core I/O board that enables local and remote management of the server. As long as AC power is present, whether at standby or full power, the iLO 2 MP can function.
Figure 14 Core I/O Board Controls, Ports, and LEDs iLO 2 MP RS-232 Serial VGA Port Link and Activity LED Port (DB-9F to DB-9F Standby Power (No iLO 2 MP access; EFI cable) MP Self Test only) Connected to emulation General Use Serial Port terminal device (PC, (Printers, etc.)
Table 10 Core I/O Board Ports (continued) Port Description Console Serial (iLO 2 MP) Local serial port that provides a console connection to the server Two public USB 2.0 ports used primarily to connect to a keyboard and mouse for console input functions (Windows and Linux operating systems only) VGA (optional) VGA port used primarily to connect to a monitor that displays console output (Windows and Linux operating systems only)
Figure 15 LAN Link and Status LEDs Power Supply The server can have one or two power supplies, labeled PS0 and PS1. Each power supply has an AC input receptacle and an LED that shows the power state of the server (Figure 13).
Figure 16 Power LEDs Rear Panel UID LED and Button The UID button is used to help locate a particular server within a rack of servers (Figure 13). You can remotely activate this function using various system utilities. Table 14 lists the rear panel UID LED states.
Table 16 Rack- or Pedestal-Installed Server Dimensions and Values Dimension Value Server weight (loaded product weight range 53.4 - 68 kg (120-150 lbs.) estimate) Rack Rack dimensions (depth x width x height) 69.6 cm (27.4 in) x 44 cm (17.32 in) x 30.58 cm (12.04 in) Rack weight Max: 68.04 kg (150 lbs.) Rack unit...
Table 17 System Power Specifications (continued) Parameter Rating Minimum Configuration 443 W (1512 BTU) Typical Configuration 998 W (3407 BTU) The infrastructure should be sized such that any single power supply can safely provide all the power required by the system.
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If this temperature is reached, iLO enters a TEMPERATURE_HIGH_CRITICAL event in the system log, which might initiate a graceful OS shutdown, depending on OS configuration (HP-UX envd(1) might initiate a reboot or shutdown). If this temperature is reached, iLO enters a TEMPERATURE_HIGH_NON_RECOVERABLE event in the system log and automatically initiates a system shutdown via interruption of internal DC power (the OS halts immediately).
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Table 20 Physical and Environmental Specifications (continued) Condition Overall System Typical Weight Dimensions Heat (W X D X H Release Airflow, Maximun at Airflow, Nominal 35ºC Voltage 200-240 Server Rack Pedestal Rack Pedestal Maximum (4x) 1.6G/24M CPUs, (48x) 4GB DDRII DIMM Configuration memory, (16x) SAS Hard Drives, (8x) PCI/PCI-X/PCIe added to public I/O cards.
3 Installing the System This chapter provides information and procedures to install the server. Safety Information Use care to prevent injury and equipment damage when performing removal and replacement procedures. Voltages can be present within the server even when it is powered off. Many assemblies are sensitive to damage by electrostatic discharge (ESD).
Table 21 Installation Sequence Checklist (continued) Step Description Completed Set up the console. Access the host console. Power on the server. Configure core I/O cards. Boot the operating system. Verify the server configuration. Unpacking and Inspecting the Server This section describes procedures you perform before installation. Ensure that you have adequately prepared your environment for the new server and received all the components you ordered.
NOTE: To identify each item by part number, refer to the sales order packing slip. Returning Damaged Equipment If the equipment is damaged, contact your Hewlett Packard Enterprise customer service representative immediately. The service representative initiates appropriate action through the transport carrier or the factory and assists you in returning the equipment.
NOTE: The cover release lever also disengages the memory carrier assembly cover. The memory carrier assembly cover can remain in place while servicing any components except for the memory carrier assembly and the processor board assembly. Slide the cover toward the rear of the server until the tabs release from the slots in the chassis.
Removing and Replacing the Memory Carrier Assembly Cover NOTE: When the memory carrier assembly cover is open or removed, the chassis fan units increase to high speed to assist cooling. When the top cover is replaced at the end of the operation, the chassis fans return to normal speed.
Installing a Hot-Swappable Power Supply The server can have one or two hot-swappable power supplies. These power supplies are located at the rear of the server. The supported configuration of the server requires a minimum of one power supply. You can install or replace a hot-swappable power supply using the procedures in this section when power is on or off.
Figure 19 Removing and Replacing a Hot-Swappable Power Supply Removing and Replacing Hot-Swappable Disk Drive Fillers There are disk drive fillers installed for all slots that do not contain a disk drive. IMPORTANT: For cooling purposes, always leave disk drive fillers in slots that do not contain a disk drive.
Figure 20 Removing and Replacing a Hot-Swappable Disk Drive Filler Replacing a Hot-Swappable Disk Drive Filler To replace a hot-swappable disk drive filler, perform the following: Orient the disk drive filler so that the release tab is on the left side of the filler, and the airflow holes are on the right side of the filler.
TIP: When you receive an Integrity rx6600 server from Hewlett Packard Enterprise, if you ever plan to add other SAS devices into the system, you should consider moving the SAS devices so they start in bay 1 going upwards instead of Bay 8 going downwards. Installing a Hot-Pluggable Disk Drive NOTE: The replacement disk drive must have the same product number as the disk drive that...
Figure 22 Disk Drive Slot IDs Installing a PCI/PCI-X/PCIe Card Figure 23 shows the PCI/PCI-X/PCIe slot identification and card divider locations. NOTE: Slots one through eight are full-length; slots nine and ten are short-length. Figure 23 PCI/PCI-X Slot Identification and Card Divider Locations Slot 1 Slot 5 Slot 9...
Slot 4 Slot 8 PCI/PCI-X/PXIe Card Dividers PCI/PCI-X/PCIe Configurations PCI/PCI-X/PCIe slots are numbered one through ten in the server (Figure 23). The following describes configuration requirements for slots one through ten on the PCI/PCI-X I/O backplane: PCI-X slots 1 and 2 are reserved for use by the core I/O cards SAS core I/O card in slot 1 and Gigabit Ethernet LAN core I/O card in slot 2.
Slots 7 and 8 are nonshared slots. The maximum speed for cards in slots 7 and 8 is PCI-X 133 MHz. Slots 9 and 10 are shared slots. These two slots are limited by bus mode or frequency-related incompatibilities. IMPORTANT: Slots 9 and 10 on the PCI/PCI-X/PCIe I/O backplane have the same configuration limitations as slots 9 and 10 on the PCI/PCI-X/ I/O backplane.
Insert the PCI/PCI-X/PCIe card into the empty slot and exert firm, even pressure to seat the card in the slot. CAUTION: Ensure that you fully seat the card into the slot or the card can fail after power is reapplied to the slot. Connect all internal and external cables to the PCI/PCI-X card.
Pull up on the extraction handles and rotate them outward 90 degrees (Figure 24) until they click open. Lift the memory carrier assembly out of the chassis (Figure 24). NOTE: To avoid damage to the handles, Hewlett Packard Enterprise recommends rotating the handles inward and snapping them into place when servicing the system DIMMs or any time the carrier is out of the chassis.
Slide the memory carrier assembly into the chassis until it begins to seat into the socket located on the processor board. CAUTION: Do not apply excessive force when closing the extraction handles and seating the memory carrier assembly into the socket on the processor board. Manipulate the extraction handles with care;...
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Figure 25 Memory Carrier Assembly Figure 26 shows the memory carrier with the side cover open. Installing the System...
Figure 26 Memory Carrier Assembly with Side Cover Open Memory Installation Conventions Before installing memory, read and understand the following memory installation conventions: Supported DIMM sizes and memory configurations DIMM load order DIMM slot IDs Supported DIMM Sizes and Memory Configurations The standard server configuration includes a 48-DIMM memory carrier, which contains one or two 24-DIMM memory boards.
Figure 27 48-DIMM Memory Carrier Board Slot IDs Memory Loading Rules and Guidelines Use the following rules and guidelines when installing memory: Install DIMMs in quads. Ensure that all DIMMs within a quad are identical. Install quads in order of capacity from largest to smallest. For example, install all 2 GB quads before 1 GB or smaller quads, and install all 1 GB quads before 512 MB quads.
If both sides of the memory carrier contain the same capacity of memory, install the next quad in side 0. If side 0 contains more memory capacity, even though it may have less DIMMs than side 1, install the next quad in side 1. If side 1 is full, install the remaining quads in side 0.
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Unlatch the cover release lever on the top cover and remove the memory carrier assembly cover. See “Removing and Replacing the Memory Carrier Assembly Cover” (page 47). NOTE: You do not need to fully remove the top cover to service this component. However, the top cover release lever must be open.
Install the DIMMs (Figure 28). Align the DIMM with the slot located on the memory board, and align the key in the connector with the notch in the DIMM. Push on each end of the DIMM firmly and evenly until it seats into the slot. Ensure that the extraction levers are in the fully closed position.
processor board is mounted onto a removable carrier tray, which is retained in the service bay by a hinged access door. WARNING! Ensure that the system is powered off and all power sources have been disconnected from the server prior to performing this procedure. Voltages are present at various locations within the server whenever an AC power source is connected.
Figure 29 Removing the Processor Board Assembly Replacing the Processor Board Assembly To replace the processor board assembly, follow these steps: Remove the processor board assembly. Align the edges of the processor board assembly with the assembly guides in the chassis. Slide the processor board assembly into the chassis until it begins to seat into the socket located on the midplane board.
3P/6C (Three processors/six cores) 4P/8C (Four processors/eight cores) If the server has fewer than the maximum number of dual-core processors installed, install the processors in the appropriate slot. WARNING! Ensure that the system is powered off and all power sources have been disconnected from the server prior to performing this procedure.
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Remove the memory carrier assembly. See “Removing and Replacing the Memory Carrier Assembly” (page 55). NOTE: You must remove the memory carrier assembly because it attaches directly to the processor board. Remove the processor board assembly. See “Removing and Replacing the Processor Board Assembly”...
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14. Close the processor cage (Figure 30). Grasp the processor cage handle and rotate the cage closure inward toward the rear of the assembly until it is completely closed. Push the handle down until it is flush with the cage. 15.
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Figure 31 Processor Power Cable Figure 32 shows the processor socket lock/unlock mechanism and alignment post locations without a processor installed. Installing the System...
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Figure 32 Processor Alignment Posts and Lock/Unlock Mechanism Figure 33 shows the processor lock/unlock mechanism location and the alignment holes with the processor installed. Installing Additional Components...
Figure 33 Processor Alignment Holes and Lock/Unlock Mechanism Installing the Server into a Rack or Pedestal Mount This section provides instructions on how to install the server into a rack or pedestal mount. Installing the Server into a Rack The following information describes how to install the server into a Hewlett Packard Enterprise rack or an approved non-Hewlett Packard Enterprise rack.
The Guide for Evaluating the Installation of Hewlett Packard Enterprise Equipment in Non-Hewlett Packard Enterprise Racks is located on the web at http://www.hpe.com/info/rackandpower. Select mounting information from the menu, then select Mounting in non-HP racks. Installing the Server into a Pedestal Mount The server ships with a pedestal mount if you order the rackless configuration option.
Plug the power cord into the appropriate receptacle on the rear of the chassis to achieve the standby power state; the front panel Power button is not turned on. Full power occurs when the power cord is plugged into the appropriate receptacle, and either the power is activated through the iLO 2 MP PC command, or the Power button is activated.
Applying Standby Power to the Server To apply standby power to the server, follow these steps: Locate the appropriate receptacle on the rear of the chassis. Plug the power cord into the receptacle. IMPORTANT: If the server has one BPS, plug the power cable into the receptacle labeled PWR 1.
To enable general network connectivity for the server, follow these steps: Obtain valid IP addresses for each LAN port you plan to activate. Connect the LAN cable from an available LAN port to a live connection on the network. Console Setup Setting up the console involves the following: Determining the physical access method to connect cables.
Setup Checklist Use the checklist in Table 29 to assist you with the console setup process. Table 29 Setup Checklist Step Action Standard and Advanced Preparation 1. Determine access method to select and connect cables. 2. Determine LAN configuration method and assign IP address if necessary.
Figure 36 Setup Flowchart Preparation There are several tasks to perform before you can configure the iLO 2 MP LAN. Determine the physical access method to select and connect cables. Determine the iLO 2 MP LAN configuration method and assign an IP address if necessary. Determining the Physical iLO 2 MP Access Method Before you can access the iLO 2 MP, you must first determine the correct physical connection method.
Figure 37 Server Rear Ports iLO 2 MP RS-232 Serial USB 2.0 Ports VGA Port Port (DB-9F to DB-9F cable) (any USB device) No iLO 2 MP access; EFI Connected to emulation only iLO 2 MP LAN Port terminal device (PC, laptop, (10/100 LAN) or ASCII terminal) General Use Serial Port...
Once you have determined the iLO 2 MP access, you must determine how you will configure the iLO 2 MP LAN in order to acquire an IP address. There are three methods available. DHCP/DNS ARP Ping RS-232 serial port Table 31 provides all the possible scenarios to consider.
Obtain the factory-set host name from the iLO 2 MP Media Access Protocol (MAC) address label on the server. The default host name is 14 characters long, consisting of the letters mp followed by the 12 characters of the MAC address (example: mp0014c29c064f). This address is assigned to the iLO 2 MP core IO board.
Table 32 ARP Ping Commands ARP Command Description This command assign the IP address to the iLO 2 MP MAC address. This ARP table entry arp -s maps the MAC address of the iLO 2 MP LAN interface to the static IP address designated for that interface.
IMPORTANT: Ensure you have a console connection through the RS-232 serial port or a network connection through the LAN to access the iLO 2 MP and use the LC command. To assign a static IP address using the LC command, follow these steps: Ensure the emulation software device is properly configured.
Access the iLO 2 MP using the LAN, RS-232 serial port, telnet, SSH, or web method. The iLO 2 MP login prompt displays. Log in using the default the iLO 2 MP user name and password (Admin/Admin). TIP: For security reasons, Hewlett Packard Enterprise strongly recommends you modify the default settings during the initial login session.
To setup user accounts: Access the MP Main Menu. Enter CM at the MP> prompt. Enter UC at the MP:CM> prompt and follow the prompts to modify user accounts. Setting Up Security For greater security and reliability, Hewlett Packard Enterprise generally recommends that iLO 2 MP management traffic be on a separate dedicated management network and that only administrators be granted access to that network.
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Before starting this procedure, you must have the following information: IP address for the iLO 2 MP LAN Host name (this is used when messages are logged or printed) To interact with the iLO 2 MP through the web GUI, follow these steps: Open a web browser and enter the host name or the IP address for the iLO 2 MP.
Select the web interface functions by clicking the Function tabs at the top of the page. Each function lists options in the Navigation Bar on the left side of the page. Click an option link to display data in the Display screen; and click Refresh to update the display.
Connect the cables. See your user service guide for specific port information. Connect the monitor VGA cable to the appropriate VGA port on your server. Connect the keyboard USB cable to the appropriate USB port on your server. Connect the mouse USB cable to the appropriate USB port on your server. Power on the server.
Table 33 Power States Power States Power Cable Powered On with the iLO 2 MP PC AC Voltage DC Voltage Plugged into Command, or Front Panel Power Applied Applied Receptacle Button Pressed Standby power Full power NOTE: If the power restore feature is set to Always On through the iLO 2 MP PR command, the server can automatically power on to the full power state.
To power on the server using the iLO 2 MP, follow these steps: Plug all power cables into the receptacles on the rear panel of the server. Initiate a console session and access the MP Main Menu. Enter CMto enable command mode. Enter PC to use the remote power control command.
To determine the current version of the firmware, follow these steps. At the EFI Shell, enter mptutil from the directory that contains mptutil.efi. The following example indicates that the EFI Serial Attached SCSI card utility version is 1.01.12.00: fs0:\EFI\HP\TOOLS\NETWORK> mptutil MPTUTIL-1.01.12.00 Vendor Device...
At the fs0:\> prompt, enter reset. The filename is optional and you are prompted for a filename if omitted. Another way for the firmware to be flashed is done without your knowledge. When mptutil is executed, and a SAS HBA is in any state other than ready or operational, mptutil immediately performs a firmware download boot.
NOTE: If you are not using the IM functionality, do not follow these procedures. DRVCFG Utility To configure an IM on the SAS controller, follow these steps: Starting the DRVCFG Utility To start the drvcfg configuration utility, follow these steps: Select the EFI Shell from the console menu.
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Figure 41 Accessed Screens in the drvcfg Utility DRVCFG Screens Adapter List Screen The Adapter List screen displays when the configuration utility is first started. This screen displays a scrolling list of up to 256 SAS controllers in the system, and information about each of them. Use the arrow keys to select a SAS controller, and press Enter to view and modify the selected SAS controller's properties.
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Figure 42 Adapter Properties Screen Use the arrow keys to select RAID Properties, and press Enter to view the Select New Array Type screen. To access the following screens, use the arrow keys to select the screen, and press Enter on the appropriate field: RAID Properties SAS Topology...
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Boot Support Specifies whether an adapter is eligible for configuration utility software control or is reserved for control by other software (Enabled BIOS & OS, Enabled BIOS Only, Enabled OS Only or Disabled). Enabled BIOS & OS - SAS controller is controlled by both the BIOS and OS driver.
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To create the array after the volume is configured, press C. The system prompts you to save changes, which creates the array. During the creation process, the utility pauses. You are then taken back to the Adapter Properties screen. The following are the descriptions for the Create New Array screen. Array Type Indicates the type of array being created.
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Wrg Type Device is not compatible for use as part of an IM array. Too Small Disk is too small to mirror existing data. Max Dsks Maximum # of disks allowed for this type of Array reached and/or Maximum # of total IM disks on a controller reached.
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spare per IM array is permitted. A hot spare is not required in an IM. A hot spare can be specified at array creation, or any time after creation, provided the array is made up of 5 disks or fewer. This field is grayed out under the following conditions: The device does not meet the minimum requirements for use in an IM array.
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Manage Array Screen The Manage Array screen enables you to manage the current array. To access the Manage Array screen, select the appropriate field and press Enter on the Manage Array field from the View Array screen. The Manage Array screen enables you to perform the following actions: Manage Hot Spare To display a Hot Spare Management screen that has the same layout as the Create New Array screen, press Enter on Manage Hot Spare.
From the EFI Shell prompt, change to the CD drive. shell> fs0: Enter fs0:\> Change to the directory that containscfggen.efi. fs0:\> cd EFI\HP\TOOLS\NETWORK Enter fs0: EFI\HP\TOOLS\NETWORK> From this directory use cfggen. CFGGEN Operation cfggenis not case sensitive. You can enter cfggen commands and parameters in uppercase, lowercase, or a mixture of the two.
Rules for creating IM volumes and hot spare disks The following rules apply when creating IM volumes and hot spare disks: All disks that are part of an IM volume or a hot spare for an IM volume must be on the same SAS controller.
<size> Size of the RAID volume in Mbytes or “MAX” for the maximum size available. [qsync] Quick synchronization of the volume created. [noprompt] Eliminates warnings and prompts. Operation When AUTO creates an IM volume, the first disk found is assigned as the primary disk drive. If the controller is allowed to resync the disk drives, the data on the primary disk drive is available by accessing the newly created volume.
Depending on the OS, additional device drivers and management agents must be installed. See the User guide for the specific HPE Smart Array Controller on the Hewlett Packard Enterprise website at http://www.hpe.com/info/integrity-iocards-docs under the specific Smart Array Controller product for installation procedures. The latest firmware, drivers, utilities, software, and documentation for Integrity servers are available on the support page of the Hewlett Packard Enterprise website at http://www.hpe.com/support/ itaniumservers.
Version: 1.04.12.00 (C) Copyright 2004 Hewlett Packard Development Company L.P. ************************************************************* Func Description Version HP Smart Array 6400 1.92 HP Smart Array 5300 3.54 The identification information from this list is used to designate which controller is to be updated. UPDATE NOTE: The saupdate utility program file (saupdate.efi) must be located in the same file...
For example, to update the controller at segment 1, bus 51, device 4, function 0 from the example output above, enter a command at the EFI Shell prompt as in this following example: fs0:\> saupdate UPDATE 1:51:4:0 CYBORG234.BIN Replace CYBORG234.BIN with the name of your firmware file. The following screen displays: ************************************************************* Smart Array Offline Firmware Update Utility...
Firmware Image is not suitable for HP Smart Array 5300 Controller at Seg: 1, Bus 20, Dev: 1, Func:0 After updating the firmware, cycle the power on the system and on any external JBODS connected to the Smart Array HBAs.
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Figure 44 EBSU Welcome Screen Select OK and press Enter to continue. From the main menu, select Maintain Firmware and press Enter. Figure 45 EBSU Main Menu In the Maintain Firmware screen, use the tab key to scroll down to the Device section. Use the down arrow key to scroll down to the Smart Array Controller item in the list.
EBSU displays the firmware update screen for the selected device. The version number in the first column (ROM Firmware Version) is the one currently installed on your system. The version number in the second column (ROM Version on Disk) is the one available on your Smart Setup media.
HPE Array Configuration Utility User Guide at I/O Cards and Networking Software on the Hewlett Packard Enterprise website at http://www.hpe.com/info/integrity-iocards-docs. Click the link for your HP-UX version. Support guides are listed alphabetically in the “User guide” section. Comparing the Utilities Table 36 lists the supported features and procedures for the ACU and ORCA utilities.
Power on the server. POST runs, and any array controllers that are in the server are initialized one at a time. During each controller initialization process, POST halts for several seconds while an ORCA prompt message displays. At the ORCA prompt: If you are connected using a headless console, press the Esc+8 combination.
For detailed information about using ACU, see the HPE Array Configuration Utility User Guide at I/O Cards and Networking Software on the Hewlett Packard Enterprise website at http:// www.hpe.com/info/integrity-iocards-docs. Click the link for your HP-UX version. Support guides are listed alphabetically in the “User guide” section. Installation Troubleshooting This section provides basic server troubleshooting information to help you diagnose common issues that can occur during server installation.
Table 37 Server Power Button Functions (continued) Action Reaction Press and hold the Power button for five seconds System power turns off immediately (hard power off). or longer If the server is off, and power is not connected to server power supplies, pressing the Power button has no effect. If the server is off, and power is connected to server power supplies, the front panel power LED blinks at a 1 Hz rate.
Operating System Boots with Problems If the operating system is running and you are experiencing problems, use the following tools to help solve the problem: LEDs Error Messages and event logs Intermittent Server Problems You can usually trace intermittent problems that occur during installation to power source problems, a loose connector, or some other hardware problem.
The TPM is an optional security component which enhances security capabilities for the server if it is running the HP-UX operating system. The TPM is a security chip that is unique to the server. It performs key security processes independent of other hardware components. The TPM creates and stores additional encryption keys from the root key of the system.
Enter secconfig tpm on to enable the TPM. Reset the server. Boot the operating system. Restore the former TPM settings to the new TPM. See the HP-UX operating system documentation for more information. Back up the TPM security information. See the HP-UX operating system documentation for more information.
Manager menu. Ordinarily the boot options list includes the EFI Shell and one or more operating system loaders. The following example includes boot options for HP-UX, Linux, and the EFI Shell. EFI Boot Manager ver 2.00 [14.62] OS might use only the primary console set via boot manager or conconfig command...
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The EFI Boot Option Maintenance Menu provides the Add a Boot Option, Delete Boot Option(s), and Change Boot Order menu items (use this method if you must add an EFI Shell entry to the boot options list). Operating system utilities for managing the boot options list include the HP-UX setboot command. NOTE: In some versions of EFI, the Boot Configuration Menu is listed as the Boot Option Maintenance Menu.
NOTE: The operating system installer automatically adds an entry to the boot options list. To add an HP-UX boot option when logged in to HP-UX, use the setboot command. For more information see the setboot(1M) manpage. To add an HP-UX item to the boot options list from the EFI Shell, follow these steps:...
Booting HP-UX From the EFI Boot Manager From the EFI Boot Manager menu, select an item from the boot options list to boot HP-UX. Access the EFI Boot Manager menu for the system on which you want to boot HP-UX.
AUTO file. You have 10 seconds to interrupt the automatic booting of the default boot behavior. Press any key during this 10-second period to stop the HP-UX boot process and enables you to interact with the HPUX.EFI loader.
Booting HP-UX in Single-User Mode To boot HP-UX in single-user mode, follow these steps: Access the EFI Shell environment for the system on which you want to boot HP-UX in single-user mode. a. Log in to the iLO 2 MP and enter CO to select the system console.
Booting HP-UX in LVM-Maintenance Mode To boot HP-UX in LVM-maintenance mode, follow these steps: Access the EFI Shell environment for the system on which you want to boot HP-UX in LVM-maintenance mode. a. Log in to the iLO 2 MP and enter CO to select the system console.
#. The new boot option references file.efi and is listed with the title specified by Description. For example, bcfg boot add 1 \efi\vms\vms_loader.efi "HP OpenVMS" adds an OpenVMS item as the first entry in the boot options list. See the help bcfg command.
NOTE: You can also accomplish this step by using the \efi\vms\vms_bcfg.efi and \efi\vms\vms_show.efi utilities, which are available on the EFI System Partition for OpenVMS. Both vms_bcfg and vms_show are unique utilities for OpenVMS I64. The vms_bcfg utility differs from the bcfg EFI command in that vms_bcfg enables you to specify boot devices using VMS-style device names.
\efi\vms\vms_loader.efi HP OpenVMS Industry Standard 64 Operating System, Version XAV1-D2Y Copyright 1976-2005 Hewlett-Packard Development Company, L.P. %PKA0, Copyright (c) 1998 LSI Logic PKW V3.2.20 ROM 4.19 %PKA0, SCSI Chip is SYM53C1010/66, Operating mode is LVD Ultra3 SCSI %SMP-I-CPUTRN, CPU #01 has joined the active set.
Select> Use the Import command to import the Window boot option file. For example: Select> i Enter IMPORT file path: \EFI\Microsoft\WINNT50\Boot0001 Imported Boot Options from file: \EFI\Microsoft\WINNT50\Boot0001 Press enter to continue Enter Q to quit the NVRBOOT utility. Exit the console and iLO 2 MP interfaces if you are finished using them. Press Control-B to exit the system console and return to the MP Main Menu.
Shutting Down Microsoft Windows CAUTION: Do not shut down Windows Server 2003 SAC restart or shutdown commands under normal circumstances. Issuing restart or shutdown at the SAC> prompt causes the system to restart or shut down immediately and can result in the loss of data. Use the Windows Start menu or the shutdown command to shut down gracefully.
Issue the shutdown command and the appropriate options to shut down the Windows Server 2003 on the system. Use one of the following options when shutting down Windows: To shut down Windows and reboot, issue the following command: shutdown /r To shut down Windows and power off server hardware, issue the following command: shutdown /s NOTE:...
Access the EFI System Partition (fsX: where X is the file system number) for the device from which you want to boot Linux. For example, enter fs2: to access the EFI System Partition for the bootable file system number 2. The EFI Shell prompt changes to reflect the file system currently accessed. The full path for the Red Hat Enterprise Linux loader is \EFI\redhat\elilo.efi and it is on the device you are accessing.
Booting Red Hat Enterprise Linux from the EFI Shell Access the EFI Shell. From the system console, select EFI Shell from the EFI Boot Manager menu to access the shell. Access the EFI System Partition for the Red Hat Enterprise Linux boot device. Use the map EFI Shell command to list the file systems (fs0, fs1, and so on) that are known and mapped.
Allow the ELILO.EFI loader to proceed with booting the SuSE 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.
5 Troubleshooting This chapter provides strategies, procedures, and tools for troubleshooting server error and fault conditions. Methodology General Troubleshooting Methodology There are multiple entry points to the troubleshooting process, dependent upon your level of troubleshooting expertise, the tools/processes/procedures which you have at your disposal, and the nature of the system fault or failure.
Should a failure occur, the front panel LEDs, the diagnostic panel LEDs, and the system event log (SEL) will help you identify the problem or FRU: LEDs. The front panel LEDs and LAN LEDs of the server change color and blink to help identify specific problems.
Basic and Advanced Troubleshooting Tables The following troubleshooting tables are designed for use by both trained and untrained support personnel. They should be the first tool used to determine the symptom(s) or condition of a suspect server. Be aware that the state of the front panel LEDs can be viewed locally, or remotely (using the vfp command from the iLO 2 MP).
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Table 39 Front Panel LED States System Health Internal Health External System Power Basic Entry Class Troubleshooting Health Table Step Number 1 in Table 40 STEADY 2a in Table 40 AMBER FLASHING FLASHING Off or Steady Steady Green 2b/2c in Table 40 AMBER OR Green...
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Table 40 Basic Entry Class Troubleshooting (continued) Step Condition Action Preceding problem is fixed when iLO 2 MP logs are read, and the front panel LED states are as follows: System Health is Off, Internal Health is Off/ Steady Green, External Health is Steady Green, and Power is Steady Green. Front panel System Health A fatal fault has been detected and logged after server powers on (System LED is Flashing Red and...
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Table 40 Basic Entry Class Troubleshooting (continued) Step Condition Action Preceding problem is fixed when iLO 2 MP menu appears on the system console, and the System Health is Steady Green. Cannot see EFI prompt on Nothing may be logged for this condition (System Health is Off, Internal Health system console.
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Table 41 Advanced Entry Class Troubleshooting Step Symptom/Condition Action Cannot read System Event Log System event logging has stopped and a BMC malfunction is assumed from the system console. (System Health is Steady Green, Internal Health is Steady Green, External Health is Steady Green, and Power is Steady Green).
Table 41 Advanced Entry Class Troubleshooting (continued) Step Symptom/Condition Action Preceding problem is fixed when the MCA does not repeat, or the source of the MCA has been determined and dealt with. MCA occurs during server Front panel LEDs indicate that the server detected a fatal, front side bus operation;...
Table 42 External Health LED States LED Color Flash Rate Status LED Off Health good on all external CRUs and system power is off. Green Steady System power is on; externally serviceable components (usually accessible from front or back, such as fans and power supplies) are okay.
Table 45 describes the VFP Internal Health LEDs. Table 45 VFP Internal Health Description LED Color State None. Green Internal parts, including CPUs and memory are healthy. Flashing amber An internally accessible CRU failed. Check the Diagnostic panel. System Health LED (SHLED) This LED is used: To carry forward the ATTENTION functionality of legacy Integrity and HPE 9000 front panel designs.
to turn off the LED. Pressing the front panel Switch/LED, or entering the iLO 2 MP and LOC commands, lights the rear panel LED, and vice versa. Off = Off Blue (Not flashing) = Identification Diagnostics Panel LEDs The Diagnostics Panel improves serviceability by allowing you to look in a single location for the LEDs that provide failing FRU locating/mapping information.
On HP-UX systems, the legacy tools within OnlineDiag will continue to be supported. The online support tools, on the HP-UX 11.23 and greater operating systems, include the Support Tool Manager (STM) tools, and the additional Web-Based Enterprise Management (WBEM) features added by SysFaultMgmt.
Table 49 Online Support Tools List Functional Area Information Verify Exercise Diagnose Expert System CPU/FPU Memory Graphics Core I/O LAN Disk/Arrays Tape Add-On Network I/O Cards Add-On Mass Storage I/O Cards Linux Online Support Tools Online support tools are provided through Insight Manager (IM7) on Linux hosted systems. The exact coverage of these tools is the same as for the current IA-32 implementation.
To ensure that tools are available to repair or recover from the fault. HP-UX Fault Management Proactive fault prediction and notification is provided on HP-UX by SysFaultMgmt WBEM indication providers, as well as by the Event Management System (EMS). The Event Management Service and WBEM provide frameworks for monitoring and reporting events.
Events are created by firmware or OS code, and are sent over the PDH bus to the BMC for storage in either or both of the SEL and FP logs (HP-UX shows an I/O path for the BMC). The iLO 2 MP can display event logs: SEL events are sent over the IPMB, between the BMC and the iLO 2 MP.
Connect to the system console. Use Control-B to access the iLO 2 MP menu. Use the sl command to view event logs: System Event (E) and Forward Progress (F) logs are very useful in determining the context of an error (See the following figure for an example): NOTE: Remember that: E shows only event logs for Warning, Critical, or Fatal faults by default;...
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Select e to review the system events. The Event Log Navigation menu displays: Enter menu item or [Ctrl-B] to Quit: e Log Name Entries % Full Latest Timestamped Entry --------------------------------------------------------------------------- E - System Event 31 Oct 2003 23:37:45 Event Log Navigation Help: View next block (forward in time, e.g.
Select v, and select t to change the display to text mode: Display Mode Configuration: H - Hex mode Current -> K - Keyword mode T - Text mode Enter new value, or [Q] to Quit: To decode the blinking state of system LED, review the entire SEL and look at events with alert level 3 and above.
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Figure 51 Server System with PCI/PCI-X I/O Backplane Block Diagram Figure 52 Server System with PCI/PCI-X/PCIe I/O Backplane Block Diagram 152 Troubleshooting...
There are two types of CRUs in the server: Externally accessible CRUs (eCRUs) Internally accessible CRUs (iCRUs) In the following two lists, asterisks identify those CRUs identifiable by Diagnostic Panel LEDs when they are faulty or have failed. The following is a list of all external CRUs (eCRUs) in the server: Bulk power supply (1 and 2) Console device Power cords...
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05-Diagnostic Panel 06-Front Panel 00-Motherboard Log Entry 4: Dec 2005 00:00:09 Alert Level 5: Critical Keyword: Type-02 257100 2453760 Missing CRU device - Mem Extender Logged by: Baseboard Management Controller, Sensor: Entity Presence 0x2000000009020050 FF01807115250300 If you do not see all of the above CRU IDs, concentrate on the missing CRU IDs. You should eventually end up with the following Alert (IPMI) event for this action as read from the SEL: If you do not get the above Alert Level 5 (IPMI) event, but get another sort of high level alert, try replacing the I/O backplane board.
Insert the CPU board CRU with at least module 0 processor installed. When you add the CPU board CRU and turn on system power, the cooling fans should turn on and stay on and the DF command output should look something like the following: CRU IDs ------- 0001-Mem Extender 0002-Power Converter 0003-Power Supply 0...
Early code fetches come from PDH, until memory is configured. Normal execution is fetched from main memory. Local machine check abort (MCA) events cause the physical CPU core and one or both of its logical CPUs within that IPF processor module to fail while all other physical and their logical CPUs continue operating.
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Table 53 Processor Events That May Light Diagnostic Panel LEDs Diagnostic Sample IPMI Events Cause Source Notes LED(s) Processors Type E0h, 734d:26d BOOT_CPU_LOADING_ERROR Installed processors are not compatible Processors Type E0h, 2953d:26d BOOT_CPU_LOADING_ERROR Processors and/or termination out of order Processors Type E0h, 36d:26d BOOT_CPU_LATE_TEST_FAIL A logical CPU (thread)
Table 53 Processor Events That May Light Diagnostic Panel LEDs (continued) Diagnostic Sample IPMI Events Cause Source Notes LED(s) with processor Processors Type E0h, 34d:26d BOOT_CPU_FAILED A processor failed Processors Type E0h, 33d:26d BOOT_CPU_EARLY_TEST_FAIL A logical CPU (thread) failed early self test Processors Type 02h, 25h:71h:80h MISSING_FRU_DEVICE...
Customer Messaging Policy Only light a diagnostic LED for memory DIMM errors when isolation is to a specific memory DIMM. If any uncertainty about a specific DIMM, point customer to the SEL for any action and do not light the suspect DIMM CRU LED on the diagnostic panel. For configuration style errors, for example, no memory DIMMs installed in rank 0 of side 0, follow the Hewlett Packard Enterprise policy of lighting all of the CRU LEDs on the diagnostic LED panel for all of the DIMMs that are missing.
Table 55 Memory Subsystem Events That May Light Diagnostic Panel LEDs (continued) Diagnostic Sample IPMI Events Cause Source Notes LEDs Processor Type E0h, 187d:26d System firmware Carrier MEM_ECC_MBE_SIGNAL_TST_FAILED (SFW) was unable to clear the platform error logs on the CEC Processor Type E0h, 190d:26d The error registers in...
Two LBA chips use dual-rope (4 ropes total) interfaces (both are for customer use) to support two single 64-bit PCI-X slots running at 133 MHz; Two LBA chips use two quad-rope (8 ropes total) interfaces (both are for customer use) to support two single 64-bit PCI-X slots running at 266 MHz.
In the event that the OS is absent or hung, or that the manageability subsystem (specifically the BMC) in the server is not responding, a greater than four second press of the Power button is required to power down the system (a less than four second press on the Power button will have no effect).
Table 58 I/O Power Events That Light Diagnostic Panel LEDs (continued) Diagnostic Sample IPMI Events Cause Source Notes LEDs (likely too low) Cooling Subsystem There are six fan cooling zones within the server chassis that provide N+1 rotor redundancy for the chassis using six identical dual fan assembly CRUs.
Some diagnostic messages are reported for high level I/O subsystem errors; all fatal I/O subsystem errors cause global MCAs. NOTE: HP-UX provides its own path with the physical Rope # of the suspect I/O subsystem FRU. Use Table 62: “PCI/PCI-X Slot-Rope-ACPI Paths” (page 165), to determine the physical PCI slot number.
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Table 61 I/O Card Events That May Light Diagnostic Panel LEDs (continued) Diagnostic Sample IPMI Events Cause Source Notes LEDs I/O Card Type E0h, 131d:26d PCI-X hot-plug Either a card / slot IO_HOT_PLUG_CTRL_FAILED controller failed problem. Reseat card first I/O Card Type E0h, 139d:26d PCI bus walk (I/O Remove any unsupported...
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Table 62 PCI/PCI-X Slot-Rope-ACPI Paths (continued) Physical Slot # Physical Rope OLARD Logical ACPI Path Acpi(HWP0002,PNP0A03,400)/Pci(2 | 0) Fast core LAN at 66 MHz. Acpi(HWP0002,PNP0A03,400)/Pci(2 | 1) 12, 13, 14 & 15 Acpi(HWP0002,PNP0A03,700)/Pci(1 | 0) Public, single at 266 MHz. 4, 5, 6 &...
July 1, 2008, repair and replace should be performed with version 1.1 I/O backplane. The device paths for version 1.1 are as follows. Function Associated with Location as Viewed Slot Path from Rear of Chassis HP-UX Device Path EFI Device Path I/O PCIe x8 3rd from left 0/6/0/0/0/0/1/0/0 Acpi(HPQ0002,PNP0A08,600)/Pci(0| 0)/Pci(0|0)/Pci(1|0)/Pci(0|*) (switched with slot 4)
Manageability Reset Button on Core I/O Board FRU’s Bulkhead The manageability Reset button, with pinhole access from the rear of the server, allows you to reset the iLO 2 MP; it optionally also resets user-specified values to factory default values. A momentary press causes a soft reset of the iLO 2 MP, when the button is released;...
Remove the disk drive. Inspect the lightpipes for damage. If a lightpipe is damaged, contact your reseller. CAUTION: The lightpipes are fragile. Be careful not to damage them when you inspect them or when you reinsert the disk drive. Reinstall the disk drive. Restart the Hewlett Packard Enterprise server to determine whether the LED now becomes illuminated during the boot.
Table 67 LAN B Connector LEDs (continued) Location Color Description Link (upper Upper right Green link is enabled. right) No link Booting Table 68 shows the normal boot process, as reflected in changes to front panel LED states: Table 68 Normal Boot Process LED States Step System Internal...
6) OS may use runtime PAL and SAL calls, and APCI features (these abstraction layers allow platform independence). Firmware The system has three sets of firmware installed: System firmware BMC firmware iLO 2 MP firmware All firmware (SFW, BMC, iLO 2 MP, and so on.) must be from the same release. Independent updates are not supported.
PC to control server operations locally. HP-UX alternatively uses the iLO 2 MP LAN connection over a private network to control server operations locally using telnet or SSH, and remotely over a public network through the web GUI.
For information on contacting the Hewlett Packard Enterprise Support Center (HPESC) near you, go to http://www.hpe.com/support/hpesc. Online Support To contact Hewlett Packard Enterprise Customer Support online, see Worldwide Limited Warranty and Technical Support Guide or visit us at http://www.hpe.com/support/hpesc. On our web page, enter the server model number (rx6600) and search the field. The following information is available on this website: Software and firmware updates The latest drivers and utilities...
6 Removing and Replacing Server Components This chapter describes safety information, required service tools, accessing the server, and the removal and replacement of hardware components for the server. Required Service Tools Service of this server requires one or more of the following tools: Electrically Conductive Field Service Grounding Kit (P/N 9300-1155) Processor install tool (attached to the processor board assembly) 1/4 inch flat blade screwdriver...
Component Classification The server components are classified into three major categories: Hot-swappable Hot-pluggable Cold-swappable A brief explanation of each category and the classifications for the server components follow. Hot-Swappable Components A component is defined as hot-swappable if you can remove it from the chassis while the server remains operational.
I/O voltage regulator module Trusted Platform Module PCI/PCI-X card divider Core I/O board Core I/O board battery SAS core I/O card LAN core I/O card Doorbell board Display board SAS backplane board Interconnect board Midplane board Accessing a Rack-Installed Server The following procedure explains how to gain access to a server that is installed in an approved rack.
Figure 53 Rack Screw Location Inserting the Server into the Rack To insert the server into the rack, follow these steps: Press the rail clips on both sides of the server inward. Push the server into the rack until it stops. Accessing a Pedestal-Installed Server Follow these steps to access the internal components in a pedestal mounted server.
Figure 54 Server in Pedestal Kit Finger Grips Thumb Screws Removing and Replacing the Top Cover Use the following procedures to remove and replace the top cover. NOTE: When the top cover is open or removed, the chassis fan units increase to high speed to assist cooling.
Figure 55 Removing and Replacing the Top Cover Replacing the Top Cover NOTE: Replace the memory carrier assembly cover before replacing the top cover. To replace the top cover, follow these steps: Ensure the cover release lever is in the open position (Figure 55).
If rack installed, slide the server out from the rack until it stops. See “Extending the Server from the Rack” (page 176). NOTE: You do not need to extend the server completely out of the rack to remove the memory carrier assembly cover. Unlock the cover release lever by turning the cam approximately 90 degrees counterclockwise.
chassis between the disk drives and the I/O board assembly. There are also three external hot-swappable fans located at the rear of the chassis. You can replace the hot-swappable fans using the procedures in this section when system power is on or off. CAUTION: Observe all ESD safety precautions before removing or replacing a fan unit.
Replacing an Internal Hot-Swappable Chassis Fan Unit Use the following procedures to remove and replace an internal hot-swappable chassis fan unit. CAUTION: To prevent server components from overheating, replace the fan within 20 seconds. Failure to observe this caution results in an automatic server shut down in two minutes to prevent an overtemperature condition.
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Figure 58 Fan Unit Release Button (External) Figure 59 shows the fan and fan housing after the housing is pulled out of the chassis. Removing and Replacing a Hot-Swappable Chassis Fan Unit 183...
Figure 59 Removing and Replacing a Rear External Fan Unit Replacing a Rear External Hot-Swappable Chassis Fan Unit To replace a rear external hot-swappable chassis fan unit, follow these steps: NOTE: The fan unit is keyed to fit into the fan housing in one orientation only. Push the fan unit firmly into the fan housing until it is flush with the top of the fan housing.
NOTE: A hot-swappable device does not require interaction with the operating system before the device is removed from or installed into the server. The dc power to the server does not have to be off to install or replace a hot-swappable power supply.
Figure 60 Removing and Replacing a Hot-Swappable Power Supply Replacing a Hot-Swappable Power Supply To replace a hot-swappable power supply, follow these steps: Remove the metal filler panel if required. Support the new power supply with both hands, and slide it into the empty slot until it clicks into place (Figure 60).
Removing a Hot-Swappable Disk Drive Filler To remove a hot-swappable disk drive filler, follow these steps: Squeeze the tabs on the front of the filler to release it from the slot in the drive bay. Pull gently until the filler slides out of the chassis. Figure 61 Removing and Replacing a Hot-Swappable Disk Drive Filler Replacing a Hot-Swappable Disk Drive Filler To replace a hot-swappable disk drive filler, follow these steps:...
Removing and Replacing a Hot-Pluggable Disk Drive There are 16 hot-pluggable disk drives located in the front of the server. You can replace the hot-pluggable disk drives using the procedures in this section when server power is on or off. CAUTION: A hot-pluggable device may require interaction with the operating system before you can safely remove it from or install it into the server.
Figure 62 Removing and Replacing a Hot-Pluggable Disk Drive Figure 63 Disk Drive Slot IDs Disk Drive Load Order Disk drives are factory loaded in the following order: 1st drive load in Bay 8 2nd drive load in Bay 7 3rd drive load in bay 6 Removing and Replacing a Hot-Pluggable Disk Drive 189...
4th drive load in bay 5 5th drive load in Bay 4 6th drive load in Bay 3 7th drive load in bay 2 8th drive load in bay 1 9th drive load in Bay 16 10th drive load in Bay 15 11th drive load in bay 14 12th drive load in bay 13 13th drive load in Bay 12...
Removing and Replacing PCI/PCI-X/PCIe Card Dividers PCI/PCI-X/PCIe card dividers are located on the I/O board assembly, between the PCI/PCI-X/PCIe cards. Eight dividers provide short circuit protection to the hot-pluggable PCI/PCI-X/PCIe cards by preventing inadvertent contact between cards during the replacement, addition, or removal of a card.
Figure 64 PCI/PCI-X/PCIe Card Divider Replacing a PCI/PCI-X/PCIe Card Divider To replace a PCI/PCI-X/PCIe card divider, follow these steps: Insert the PCI/PCI-X/PCIe card divider locking tabs into the slots on the I/O board assembly. Push down firmly to seat the card divider into the slots on the I/O board assembly. Replace the top cover.
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CAUTION: If you are performing OLR on HP-UX 11i version 1 (and later), the card you install must be exactly the same as the card you replace. This is also known as like-for-like replacement.
Figure 65 PCI/PCI-X/PCIe Slot Identification and Card Divider Locations Slot 1 Slot 5 Slot 9 Slot 2 Slot 6 Slot 10 Slot 3 Slot 7 Core I/O Board Slot Slot 4 Slot 8 PCI/PCI-X/PCIe Card Dividers PCI/PCI-X/PCIe Configurations PCI/PCI-X/PCIe slots are numbered from one through ten in the server (Figure 65).
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NOTE: Shared slots have card compatibility restrictions. If one of the shared slots is occupied, the card added to the second slot is limited by the configuration of the occupied slot. If the new card has a slower capability than the current bus configuration, it fails. If the new card has a faster capability than the current bus configuration, it only runs at the slower bus mode and frequency of the current bus configuration.
July 1, 2008, repair and replace should be performed with version 1.1 I/O backplane. The device paths for version 1.1 are as follows. Function Associated with Location as Viewed Slot Path from Rear of Chassis HP-UX Device Path EFI Device Path I/O PCIe x8 3rd from left 0/6/0/0/0/0/1/0/0 Acpi(HPQ0002,PNP0A08,600)/Pci(0| 0)/Pci(0|0)/Pci(1|0)/Pci(0|*) (switched with slot 4)
179). Online Replacement (OLR) CAUTION: For HP-UX 11i version 1 (and later), you can only replace an existing card with a like card. To remove and replace a PCI/PCI-X/PCIe card into a populated slot, follow these steps: If rack installed, slide the server completely out from the rack. See “Extending the Server...
12. Close the gate latch to secure the end of the card if it is full-length. 13. Activate the PCI/PCI-X/PCIe card and slot. Press the red Attention button located on the MRL of the appropriate slot, and the power LED starts to blink. Wait until the power LED goes from blinking to steady on.
Power off the server and disconnect the power cables. See “Powering Off the Server” (page 89). If rack installed, slide the server completely out from the rack. See “Extending the Server from the Rack” (page 176). Remove the top cover from the chassis. See “Removing the Top Cover”...
Figure 66 DVD Drive Removal and Replacement Replacing the DVD Drive To replace a DVD drive, follow these steps: Insert the DVD drive, and push it straight into the drive bay until it clicks into place (Figure 66). Reconnect the power cables and power on the server. See “Powering On the Server”...
WARNING! Ensure that the system is powered off and all power sources have been disconnected from the server prior to performing this procedure. Voltages are present at various locations within the server whenever an AC 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.
Figure 67 Removing and Replacing the Memory Carrier Assembly Replacing the Memory Carrier Assembly CAUTION: Ensure the processor board assembly is fully seated before you replace the memory carrier assembly. The processor board assembly access door must be flush with the front bezel. To replace the memory carrier assembly, follow these steps: Ensure that the extraction handles are positioned in the outward, unlocked position.
If rack installed, slide the server completely into the rack. See “Inserting the Server into the Rack” (page 177). Reconnect the power cables and power on the server. See “Powering On the Server” (page 89). Removing and Replacing System Memory System memory, or DIMMs, are located on a pair of memory boards inside the memory carrier assembly.
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Release the DIMM from the slot. Identify the DIMM you want to remove on the memory board. Push the appropriate extraction levers found on either side of the DIMM slot outward to the open position (Figure 71). Remove the DIMM from the slot. Figure 68 shows the memory carrier assembly removed from the chassis.
Figure 69 Memory Carrier Assembly with Side Cover Open Memory Installation Conventions Before installing memory, read and understand the following memory installation conventions: Supported DIMM sizes and memory configurations DIMM load order DIMM slot IDs Supported DIMM Sizes and Memory Configurations The standard server configuration includes a 48-DIMM memory carrier which contains one or two 24-DIMM memory boards.
Figure 70 48-DIMM Memory Carrier Board Slot IDs Memory Loading Rules and Guidelines Use the following rules and guidelines when installing memory: Install DIMMs in quads. Ensure all DIMMs within a quad are identical. Install quads in order of capacity from largest to smallest. For example, install all 2 GB quads before 1 GB or smaller quads, and install all 1 GB quads before 512 MB quads.
If both sides of the memory carrier contain the same capacity of memory, install the next quad in side 0. If side 0 contains more memory capacity than side 1, install the next quad in side If side 1 is full, install the remaining quads in side 0. Table 75 shows several examples of proper memory carrier loading order.
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If rack installed, slide the server out from the rack until it stops. See “Extending the Server from the Rack” (page 176). Unlatch the cover release lever on the top cover and remove the memory carrier assembly cover. See “Removing the Memory Carrier Assembly Cover” (page 179).
Install the DIMM (Figure 71). Align the DIMM with the correct slot on the memory board, and align the key in the connector with the notch in the DIMM. Firmly and evenly push on each end of the DIMM until it seats into the slot. Ensure the extraction levers are in the locked position.
NOTE: The procedures in this section refer to the upper portion of the front bezel; the lower portion of the front bezel is the processor access door. Removing the Front Bezel To remove the front bezel, follow these steps: Power off the server and disconnect the power cables. See “Powering Off the Server”...
Slide the processor board assembly into the chassis until it begins to seat into the socket located on the midplane board. Push the processor board access door upward until it locks into position. 10. Replace the memory carrier assembly. See “Replacing the Memory Carrier Assembly”...
Grasp the handholds on the assembly carrier tray with both hands and carefully slide the assembly out of the chassis (Figure 72). Figure 72 Removing the Processor Board Assembly Replacing the Processor Board Assembly To replace the processor board assembly, follow these steps: Align the edges of the processor board assembly with the assembly guides in the chassis.
Removing and Replacing a Dual-Core Processor The Integrity rx6600 uses dual-core processors. That is, each processor contains two cores that function as separate processors. Dual-core processors double the processing power of the server while maintaining the physical dimensions of a single processor. The server can contain one, two, three, or four dual-core processors that provide the following configuration options: 1P/2C (One processor/two cores)
Required Tools To install and remove processors, use the processor install tool fastened to the processor board. Removing a Dual-Core Processor To remove a dual-core processor, follow these steps: Power off the server and disconnect the power cables. See “Powering Off the Server” (page 89).
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Open the processor cage (Figure 73). Grasp the processor cage handle, and apply adequate force to rotate the handle upward. Use the handle to rotate the cage closure approximately 90 degrees toward the front of the assembly until it stops. IMPORTANT: Ensure the processors are entirely exposed and can clear the cage closure for removal.
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Figure 74 Processor Power Cable Figure 75 shows the processor socket lock and unlock mechanism and alignment post locations: 220 Removing and Replacing Server Components...
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Figure 75 Processor Alignment Posts and Lock/Unlock Mechanism Figure 76 shows the processor lock and unlock mechanism location and the alignment holes with the processor installed: Removing and Replacing a Dual-Core Processor 221...
Figure 76 Processor Alignment Holes and Lock/Unlock Mechanism Installing a Dual-Core Processor To install a dual-core processor, follow these steps: NOTE: Prior to installing a dual-core processor into the server, read the following instructions carefully and see the figures in this chapter for a complete understanding of this process. Power off the server and disconnect the power cables.
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Remove the processor board assembly. See “Removing the Processor Board Assembly” (page 215). Open the processor cage (Figure 73). Grasp the processor cage handle, and apply adequate force to rotate the handle upward. Use the handle to rotate the cage closure approximately 90 degrees toward the front of the assembly until it stops.
Board”, to determine if there is a TPM on the I/O board assembly. If so, record the TPM settings to transfer to the replacement I/O board assembly. See the HP-UX operating system documentation for instructions. Power off the server and disconnect the power cables. See “Powering Off the Server”...
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If rack installed, slide the server completely out from the rack. See “Extending the Server from the Rack” (page 176). Remove the top cover. See “Removing the Top Cover” (page 178). Disconnect the internal USB cable from the connector on the core I/O board. Disconnect the SAS cables attached to the SAS core I/O card in PCI slot 1.
Figure 77 I/O Board Assembly Removal and Replacement Replacing the I/O Board Assembly IMPORTANT: Ensure that the I/O board extraction handles are in the outward, unlocked position to engage the assembly correctly with the midplane board socket. NOTE: The I/O board assembly is large. Use care when sliding it into the server chassis. To replace the I/O board assembly, follow these steps: Transfer the following components from the removed I/O board assembly to the replacement I/O board assembly in the following order:...
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“Removing and Replacing the Trusted Platform Module” (page 231). 15. Restore the TPM settings. See the HP-UX operating system documentation for instructions. 16. Verify the system board replacement and operation using either the iLO 2 MP commands or the EFI commands.
Removing and Replacing the System Battery The system battery is located on the I/O board assembly. Replace the battery with an identical or equivalent battery only. Dispose of used batteries according to the manufacturer’s instructions. WARNING! Lithium batteries can explode if mistreated. Do not recharge, disassemble, or dispose of batteries in a fire.
Figure 78 Battery Location on I/O Board Core I/O Board Slot System Battery I/O VRM Replacing the System Battery CAUTION: You must remove the I/O board assembly to service the system battery. The removal and replacement of the I/O board assembly occurs through the rear of the rack for rack-installed servers.
Replace the I/O board assembly. See “Replacing the I/O Board Assembly” (page 226). Reconnect the power cables and power on the server. See “Powering On the Server” (page 89). Reset the server date and time using the EFI date and time commands. Removing and Replacing the I/O Voltage Regulator Module The I/O voltage regulator module (I/O VRM) is a stand alone component located on the I/O board assembly that regulates voltage for all I/O operations.
The Trusted Platform Module (TPM) is an optional security component which enhances security capabilities for the server if it is running the HP-UX operating system. The TPM is a security chip that is unique to the server. It performs key security processes independent of other hardware components.
TPM security component. Removing the TPM To remove the TPM, follow these steps: Back up the current TPM settings. See the HP-UX operating system documentation for more information. Power off the server and disconnect the power cables. See “Powering Off the Server”...
Enter secconfig to display a list of configurable security settings. Enter secconfig tpm on to enable the TPM. Reset the server. Boot the operating system. See “Booting and Shutting Down HP-UX” (page 119). Removing and Replacing the Trusted Platform Module 233...
Restore the former TPM settings to the new TPM. See the HP-UX operating system documentation for more information. 10. Back up the TPM security information. See the HP-UX operating system documentation for more information. Removing and Replacing the Core I/O Board...
Remove the top cover. See “Removing the Top Cover” (page 178). Disconnect the internal USB cable attached to the core I/O board. Remove the slotted T15 screw that attaches the card bulkhead to the chassis; use a T15 screwdriver to turn the screw counterclockwise until it is free from the chassis. CAUTION: Do not rock the board side to side during removal, or you can damage the slot pins.
IMPORTANT: Before removing the system battery, record all boot and LAN configuration settings. (Find the settings using the INFO ALL EFI command.) You must reset these values after replacing the battery. To remove the core I/O board battery, follow these steps: Power off the server and disconnect the power cables.
Restore the iLO 2 MP configuration settings using the server console. For additional information about using the iLO 2 MP, see the Integrity iLO 2 Operations Guide. Removing and Replacing the SAS Core I/O Card The SAS core I/O card connects to the SAS disk backplane and controls internal data storage operations for the server.
Remove the top cover. See “Removing the Top Cover” (page 178). CAUTION: When disconnecting the SAS cables, note the labeling on the cables. Both cables and sockets are clearly marked with the correct channel. When reconnecting these cables, match each cable with the appropriate socket on the SAS core I/O card. If the cables are mismatched, the server will not reboot.
Table 77 (page 237) lists the LAN core I/O card location based on the number of installed SAS core I/O cards. WARNING! Ensure that the system is powered off and all power sources have been disconnected from the server prior to performing this procedure. Voltages are present at various locations within the server whenever an AC power source is connected.
The display board attaches to an interconnect board that functions as a link between the midplane board and the display board. The display board contains the power switch and the following status LEDs: Power LED System health LED Internal health LED External health LED Locator LED For more detailed information about front panel LED behavior, see...
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10. Hold the bezel out from the chassis, and use the diagnostic panel light guide as a handle to simultaneously push the board to the left to unplug it from the socket on the interconnect board. 11. Slide the board toward the rear of the chassis until it stops against the guide pins. NOTE: Use the guide pins on the chassis and the L-shaped keyways on the display board to help you with the display board removal procedure.
Figure 83 Display Board Removal and Replacement Replacing the Display Board To replace the display board, follow these steps: NOTE: Use the guide pins on the chassis and the L-shaped keyways on the display board to help you with the display board replacement procedures. Remove the diagnostic panel light guide protective cover from the replacement display board.
Install the diagnostic panel light guide. Align the diagnostic panel light guide tabs with the slots on the display board. Push down firmly on the light guide until it seats onto the board. Replace the top two right-side bezel screws. Replace the DVD drive.
The SAS backplane boards attach to an interconnect board that functions as a link between the midplane board and the SAS backplane boards. WARNING! Ensure that the system is powered off and all power sources have been disconnected from the server prior to performing this procedure. Voltages are present at various locations within the server whenever an AC power source is connected.
Figure 84 SAS Backplane Board Removal and Replacement Replacing the SAS Backplane Board To replace the SAS backplane board, follow these steps: Hold the SAS backplane board by the sheet metal bracket and guide it toward the front of the chassis until the four keyway slots on the board seat onto the locking studs. Push the board to the right to plug it into the socket on the interconnect board.
Removing and Replacing the Interconnect Board The interconnect board attaches the midplane board to the display board and the SAS backplane board. WARNING! Ensure that the system is powered off and all power sources have been disconnected from the server prior to performing this procedure. Voltages are present at various locations within the server whenever an AC power source is connected.
Figure 85 Interconnect Board Removal and Replacement Replacing the Interconnect Board To replace the interconnect board, follow these steps: CAUTION: Handle the interconnect board carefully, or you can damage the plastic insulator material on the back of the board. NOTE: Use the guide posts located on the chassis and keyways located on the interconnect board to help you with the interconnect board removal and replacement procedures.
Current System Mode: ADMIN You are now in SERVICE mode. Use the sysset command to verify that all values are set: Shell> sysset System Information: Manufacturer: hp Product Name: server rx6600 Product Number: AB464A Secondary Product Number is Identical Serial number: SGH43442VB...
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Remove the memory carrier assembly cover. See “Removing the Memory Carrier Assembly Cover” (page 179). Remove the memory carrier assembly. See “Removing the Memory Carrier Assembly” (page 204). Remove the processor board assembly. See “Removing the Processor Board Assembly” (page 215).
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Figure 86 Midplane Board Screw Location (Rear of Chassis) 22. Use a Torx 10 screwdriver to remove the four Torx screws attaching the midplane board to the sheet metal bracket through the rear of the chassis (Figure 87). Figure 87 Midplane Board Screw Location (Front of Chassis) 23.
Figure 88 Midplane Board Replacing the Midplane Board To replace the midplane board, perform these steps: Place the midplane board onto the guide pins on the chassis wall. Push straight down until it seats onto the locking studs. Use a Torx 10 screwdriver to replace and tighten the four Torx screws attaching the midplane board to the sheet metal bracket through the rear of the chassis (Figure 86 Swing the hinged CPU panel up to expose the midplane screw holes.
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10. Replace the upper SAS backplane board. See “Replacing the SAS Backplane Board” (page 245). CAUTION: When reconnecting the SAS cables, note the labeling on the channel cables. Both cables and sockets are clearly marked with the correct channel. Match each cable with the appropriate socket on the SAS core I/O card.
Hewlett Packard Enterprise Support Center More Information on Access to Support Materials page: www.hpe.com/support/AccessToSupportMaterials IMPORTANT: Access to some updates might require product entitlement when accessed through the Hewlett Packard Enterprise Support Center. You must have an HP Passport set up with relevant entitlements. Websites Website Link Hewlett Packard Enterprise Information Library www.hpe.com/info/enterprise/docs...
Hewlett Packard Enterprise website http://www.hpe.com/info/hpux-diagnostics-docs Website for Hewlett Packard Enterprise Technical Support http://www.hpe.com/info/bizsupport Books About HP-UX Published by Prentice Hall You can find the entire Prentice Hall Professional Series on Hewlett Packard Enterprise at: http://www.informit.com/imprint/series_detail.aspx?st=61305 Customer self repair Hewlett Packard Enterprise customer self repair (CSR) programs allow you to repair your product.
based on your product’s service level. Hewlett Packard Enterprise strongly recommends that you register your device for remote support. For more information and device support details, go to the following website: www.hpe.com/info/insightremotesupport/docs Typographic Conventions This document uses the following conventions. %, $, or # A percent sign represents the C shell system prompt.
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title, part number, edition, and publication date located on the front cover of the document. For online help content, include the product name, product version, help edition, and publication date located on the legal notices page. 256 Support and other Resources...
A Customer Replaceable Units Information This appendix provides the following information for each field replaceable unit (FRU): Manufacturing part number Description Replacement part number Exchange part number Parts Only Warranty Service Your Hewlett Packard Enterprise Limited Warranty may include a parts only warranty service. Under the terms of parts only warranty service, Hewlett Packard Enterprise will provide replacement parts free of charge.
Table 79 Customer Self Repair Information Code Level Description Comments Level A with instructions Requires you to replace these parts under warranty. No available in the service guide technical skills required. Optional Level B with instructions Low to moderate technical skills required. available in the service guide Optional Level C with instructions...
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Table 80 Parts List (continued) Manufacturing Part Number Description Replacement Exchange Customer Part Number Part Number Self Repair 435234-001 PCI-X serial attach SCSI adapter 435709-001 336685-001 PCI-X SAS RAID controller 370855-001 (P600) 309522-001N SAS controller, cache (P600) 309522-001 307132-001 SAS controller, battery (P600) 307132-001 012760-002 PCIe SAS RAID controller...
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Table 80 Parts List (continued) Manufacturing Part Number Description Replacement Exchange Customer Part Number Part Number Self Repair AD126-2100C 24-DIMM memory carrier AD126-67001 AD126-69001 assembly AD127-2100C 48-DIMM memory carrier AD127-67001 AD127-69001 assembly Fan Assemblies AB463-2158A AB463-2158A Otherb 314581-003 Trusted Platform Module 406059-001 0950-4677 I/O VRM...
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Table 80 Parts List (continued) Manufacturing Part Number Description Replacement Exchange Customer Part Number Part Number Self Repair 8121-0871 Power Cord - Australia 8121-0871 8121-0070 Power Cord 8121-0070 8120-6898 Power Cord - UK & HK & 8120-6898 Singapore 8121-0161 Power Cord 8121-0161 8120-6895 Power Cord...
B Upgrades This appendix provides server upgrade information. I/O Backplane Upgrade I/O Backplane Upgrade Overview The Integrity rx6600 Server can be upgraded from the 10 slot PCI/PCI-X I/O backplane (HPPN AB463-60001) to the 10 slot PCI/PCI-X/PCIe I/O backplane (HPPN AB463-60027). Table 81 provides a comparison of the two backplanes for planning movement of I/O cards.
Figure 89 OS Reinstallation Flowchart Required Service Tools Service of this server requires one or more of the following tools: Electrically Conductive Field Service Grounding Kit (P/N 9300-1155) 1/4 inch flat blade screwdriver ACX-15 Torx screwdriver ACX-10 Torx screwdriver Safety Information Use care to prevent injury and equipment damage removing and replacing server components.
If installing an assembly that is neither hot-swappable nor hot-pluggable, disconnect the power cable from the external server power receptacle. WARNING! Ensure that the system is powered off and all power sources are disconnected from the server prior to removing or installing server hardware (unless you are removing or installing a hot-swappable or hot-pluggable component).
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Verify all I/O cards are recognized Install the Operating System (if necessary) Boot to the Operating System HP-UX, Windows, and Linux require reinstallation of the OS with the upgrade of the IOBP. See Figure 89 (page 263) for more information.
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Board”, to determine if there is a TPM on the I/O board assembly. If so, record the TPM settings to transfer to the replacement I/O board assembly. See the HP-UX operating system documentation for instructions. Back up the current TPM settings. See the HP-UX operating system documentation for more information. TIP: Running the info io command from the EFI shell will allow you to record the device codes, given in HEX, for your I/O devices.
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SAS core I/O cards. There are four types of SAS core I/O cards supported on the server: Half length generic PCI-X SAS card supported on HP-UX and OpenVMS, see “Installing the HPE Eight-Internal Port SAS Host Bus Adapter” (page 269) for installation instructions.
Slots that do not contain an I/O card will not be listed in the output. Using the output, confirm that a device detected in each slot that is populated. 13. Installing the OS HP-UX, Windows, and Linux require reinstallation of the OS with the upgrade of the IOBP. Figure 89 (page 263) for more information.
On Integrity rx6600 servers, the HPE Eight-Internal Port SAS Host Bus Adapter is supported by HP-UX and OpenVMS operating systems. It should be installed in slot 1 if one card is to be installed, and slot 2 if slot 1 is already occupied.
Array P600 Controller for Integrity Servers User Guide on the Hewlett Packard Enterprise website at http://www.hpe.com/info/integrity-iocards-docs. Click the link for your HP-UX version. Support guides are listed alphabetically in the “User guide” section. The installation procedure involves the following steps: Preparing the server Installing the controller board.
For more information, including configuring and diagnosing array problems, see the Smart Array P400 Controller Support Guide on the Hewlett Packard Enterprise website at http://www.hpe.com/ info/integrity-iocards-docs. Click the link for your HP-UX version. Support guides are listed alphabetically in the “User guide” section. The installation procedure involves the following steps: Preparing the server Installing the controller board.
RAID-01 bundle downloaded depot can be installed using Software Distributor (SD). SD is a tool for installing software on HP-UX host systems. SD can also be used to remove software from HP-UX systems. The RAID-01 bundle is composed of several files that will be copied to the appropriate directories on the host system.
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**** **** **** S A U T I L S u p p o r t U t i l i t y **** **** **** **** for the HP SmartArray RAID Controller Family **** **** **** **** version A.02.11 **** **** **** **** (C) Copyright 2003-2006 Hewlett-Packard Development Company, L.P.
**** **** **** S A U T I L S u p p o r t U t i l i t y **** **** **** **** for the HP SmartArray RAID Controller Family **** **** **** **** version A.02.11 **** **** **** **** (C) Copyright 2003-2006 Hewlett-Packard Development Company, L.P.
Installing the HPE Smart Array P800 On Integrity rx6600 servers, the Smart Array P800 is supported by HP-UX 11i v2 and v3, OpenVMS 8.3-1H1, Windows and Linux operating systems. It should be installed in PCIe slot 3 or 4. For more information, including configuring and diagnosing array problems, see the Smart Array P800 Controller for Integrity Servers User Guide on the Hewlett Packard Enterprise website at http://www.hpe.com/info/integrity-iocards-docs.
Power down all peripheral devices that are attached to the server. Unplug the AC power cord from the outlet and then from the server. Disconnect all peripheral devices from the server. Procedure 22 Installing the controller board Remove or open the access panel. Select the appropriate PCI Express slot (3 or 4).
Completing the Adapter Installation Procedure 25 Updating the Firmware To update the firmware on the server, controller, or hard drives, use Smart Components. These components are available on the Firmware Maintenance CD. A more recent version of a particular server or controller component might be available on the support page of the Hewlett Packard Enterprise website (http://www.hpe.com/support).
Open ORCA. If using a headless console, press the Esc+8 key combination. Otherwise, press the F8 key. Configure the logical boot drive, and then exit from ORCA. Procedure 27 Preparing the Server Back up all data. Close all applications. Power down the server. CAUTION: In systems that use external data storage, be sure that the server is the first unit to be powered down and the last to be powered back up.
Table 85 SAS Cable Part Numbers Approximate Cable Length Type of Cable Option Kit Part Number 1 m (3 ft.) Mini SAS 4x to standard SAS 4x 419570-B21 2 m (6 ft.) Mini SAS 4x to mini SAS 4x 407339-B21 Mini SAS 4x to standard SAS 4x 419571-B21 4 m (13 ft.)
with the agents. If the new agents do not function correctly, you might also need to update Systems Insight Manager. The latest version of Systems Insight Manager is available for download at the Hewlett Packard Enterprise website (http://www.hpe.com/info/SIM). Processor Upgrades The Integrity rx2660, rx3600, rx6600 servers, and BL860c server blade support upgrades from Intel®...
IMPORTANT: Check the Hewlett Packard Enterprise Support Center (HPESC) website at http://www.hpe.com/support/hpesc for any required OS patches. HP-UX HP-UX supports the processor upgrade. OpenVMS OpenVMS must be upgraded to OpenVMS V8.3-1H1 to support the processor upgrade. Windows Windows® supports the processor upgrade.
For additional information see the 8 Internal Port SAS Host Bus Adapter (SAS Controller) Users Guide on the Hewlett Packard Enterprise website at http:// www.hpe.com/info/integrity-iocards-docs. Click the link for your HP-UX version. Support guides are listed alphabetically in the “User guide” section. MPTUTIL Utility The mptutil utility enables you to update the adapter flash memory with the EFI driver and HBA firmware.
To determine the current version of the firmware, follow these steps. At the EFI Shell, enter mptutil from the directory that contains mptutil.efi. The following example indicates that the EFI Serial Attached SCSI card utility version is 1.01.12.00: fs0:\EFI\HP\TOOLS\NETWORK> mptutil MPTUTIL-1.01.12.00 Vendor Device Choice...
Question This image does not contain a valid nvdata when I try to flash the firmware, why? Answer You are expected to concatenate a proper nvdata image on to the firmware. mptutil keeps you from flashing an image without one. To concatenate nvdata and firmware you need to run the mptutil -o -d 64it__l.fw,sas106x.dat,output.fw command.
Abort/Exit - Escape aborts the current context operation and/or exits the current screen. User confirmation is solicited as required if changes have been made by user. If you are using a serial console, pressing Esc causes a delay of several seconds before it takes effect.
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FW Revision Displays the Fusion MPT firmware version and type (IR or IT) Status Indicates whether the adapter is or is not eligible for software control (enabled, disabled or error) Enabled Indicates the EFI Driver is either currently controlling the adapter, or will attempt to control the adapter upon reload.
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PCI Address Displays the PCI Address assigned by the system BIOS to the adapter. Bus value range 0x00 - 0xFF, 0 - 255 decimal Device value range 0x00 - 0x1F, 0 - 31 decimal Function range 0x00 - 0x7, 0 - 7 decimal FW Revision Displays the MPT firmware version and type in the format (x.xx.xx.xx- yy), where x.xx.xx.xx refers to the FW version and yy refers to the type.
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Figure 92 Select New Array Type Screen Select New Array Type Screen The Select New Array Type screen enables you to view an existing array or create an Integrated Mirror array of two disks, plus an optional hot spare. To go to the Create New Array screen, select Create IM Volume. To go to the View Array screen, select View an Existing Array.
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RAID Disk Specifies the devices (disks) that make up an IM array. If RAID Disk is Yes, the device is part of an IM array; if No, the device is not part of an IM array. This field is grayed out under the following conditions: The device does not meet the minimum requirements for use in an IM array.
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Size (MB) Indicates the size of the device in megabytes (megabyte = 1024 x 1024 = 1,048,576). If the device is part of a two-disk array, this field reflects the size of the array, not the size of the individual disk. If the device is part of a three or more disk array, this field is the size that the disk makes up within the array.
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Failed Disk has failed. Initalizing Disk is initializing. CfgOffln Disk is offline at host's request. User Fail Disk is marked failed at host's request. Offline Disk is offline for some other reason. Inactive Disk has been set inactive. Not Syncd Data on disk is not synchronized with the rest of the array.
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Synchronize Array To perform a synchronization of the IM array, press Enter on Synchronize Array. The screen prompts you to ask if you want to perform this action. Press Y for yes or N for no. This field is grayed out under the following conditions: The array is inactive.
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The following objects along with their significant properties are shown: Adapter PHYs Expanders/Enclosures Attached Devices Figure 94 SAS Topology Screen - Expander Open You can access the Device Properties screen from SAS Topology: To access the Device Properties screen for the specific device and turn on the locate LED, press D from an expanded enclosure.
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To access the following screens from Device Properties, select the appropriate field and press Enter: Device Format Device Verify You can perform the following actions from Device Properties: To cycle to the next device, press N. To cycle to the previous device, press P. Device Identifier Indicates the ASCII device identifier string extracted from the device's Inquiry Data.
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Figure 95 Advanced Adaptor Properties Screen You can perform the following actions from Advanced Device Properties: To set default values for all items on this screen, press Enter on Restore Defaults. To toggle between LUN 0 and All in any LUN field, press + or -. LUN 0 scans only LUN 0, All scans all LUNs.
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IO Timeouts for Sequential Devices Specifies the time (Time in seconds (0-999, 0 means no-timeout)) which the host uses to timeout I/Os for the following devices: SCSI Device Type 01h - Sequential Access IO Timeouts for Other Devices Specifies the time (Time in seconds (0-999, 0 means no-timeout)) which the host uses to timeout I/Os for devices other than: SCSI Device Type 00h - Direct Access...
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Direct Attached Max Targets Number of disk drives that spin up at the same time (default 1 drive). Expander Spinup Delay Expanders are not supported. Expander Max Target Devices Expanders are not supported. PHY Properties Screen The PHY Properties screen enables you to view and modify PHY specific settings. To access PHY Properties, press Enter on the PHY Properties field from the Advanced Adaptor Properties screen.
Device Identifier Indicates the ASCII device identifier string extracted from the device's Inquiry Data. Scan Order Indicates the scan order for this device (equivalent of a SCSI ID for parallel SCSI). Device Information Indicates if a device is SAS. SAS Address Indicates the SAS Address of this device.
From the EFI Shell prompt, change to the CD drive. shell> fs0: Enter fs0:\> Change to the directory that containscfggen.efi. fs0:\> cd EFI\HP\TOOLS\NETWORK Enter fs0: EFI\HP\TOOLS\NETWORK> From this directory use cfggen. CFGGEN Operation cfggenis not case sensitive. You can enter cfggencommands and parameters in uppercase, lowercase, or a mixture of the two.
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Syntax cfggen <controller #> create <volume type> <size> [qsync] [noprompt] Parameters <volume type> Volume type for the volume to be created. Valid value is IM. <size> Size of the IM volume in Mbytes or “MAX” for the maximum size available. [qsync] Quick synchronization of the volume created.
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Operation The number of disk drives in an IM array plus the hot spare disk cannot exceed three. You can create only one hot spare disk. You must make sure the capacity of the hot spare disk is greater than or equal to the capacity of the smallest disk in the logical drive. An easy way to verify this is to use the DISPLAY command.
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Device is a Hard disk Enclosure # Slot # Target ID State : Online (ONL) Size (in MB)/(in sectors) : 34732/71132960 Manufacturer : HP Model Number : DG036A8B53 Firmware Revision : HPD6 Serial No : 3LC04757000085425VFK Drive Type : SAS...
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Target ID State : Online (ONL) Size (in MB)/(in sectors) : 70007/143374738 Manufacturer : HP Model Number : DG072A8B5C Firmware Revision : HPD4 Serial No : B062P5B010R10547 Drive Type : SAS ------------------------------------------------------------------------ Enclosure information ------------------------------------------------------------------------ Enclosure# Logical ID : 500605B0:0001A950...
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CAUTION: Performing a low-level format on a hard disk drive results in the destruction of all data stored on that disk drive. The operation cannot and should not be interrupted; doing so may result in irreparable damage to the hard disk drive. Operation Unless you include <no prompt>...
Operation If there are any existing IR volumes when this command is run you are notified with an output message, no action is taken and cfggen returns SUCCESS. If IR is currently enabled when this command is run, cfggen returns SUCCESS. Faulty controller or peripheral hardware (such as., cables, disk drives, and so on.) will not cause this utility to hang.
Open ORCA. See “Configuring the Array” (page 312). If using a headless console, press Esc+8. Otherwise, press F8. Configure the logical boot drive, and exit from ORCA. Depending on the OS, additional device drivers and management agents must be installed. See the User Guide for the specific Smart Array Controller at: http://www.hpe.com/info/integrity-iocards-docs under the specific Smart Array Controller product for installation procedures.
Version: 1.04.12.00 (C) Copyright 2004 Hewlett Packard Development Company L.P. ************************************************************* Func Description Version HP Smart Array 6400 1.92 HP Smart Array 5300 3.54 The identification information from this list is used to designate which controller is to be updated. UPDATE NOTE: The saupdate utility program file (saupdate.efi) must be located in the same file...
After updating the firmware, cycle the power on the system and on any external JBODS connected to the Smart Array HBAs. HELP or ? Use HELP or ? to display usage text, program version number, and build date: Enter: saupdate HELP saupdate ? Error Messages The following is a list of error messages under various situations:...
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Figure 96 EBSU Welcome Screen Select OK and press Enter to continue. From the main menu, select Maintain Firmware and press Enter. Figure 97 EBSU Main Menu In the Maintain Firmware screen, use the tab key to scroll down to the Device section. Use the down arrow key to scroll down to the Smart Array P600 item in the list.
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Figure 98 EBSU Maintain Firmware Screen EBSU displays the firmware update screen for the selected device. The version number in the first column (ROM Firmware Version) is the one currently installed on your system. The version number in the second column (ROM Version on Disk) is the one available on your Smart Setup media.
Compare the two version numbers and perform one of the following options: If the number in the first column is the same or higher than the number in the second column, your installed firmware is current. You do not need to update the firmware for this device! You can exit EBSU and quit this procedure.
Table 89 ACU and ORCA Supported Features and Procedures (continued) ORCA Describes configuration errors Suitable for configuration while online Suitable for configuration while offline Supported Procedures Creation and deletion of arrays and logical drives Assignment of RAID level Sharing of spare drives among several arrays Assignment of multiple spare drives per array Setting of stripe size Migration of RAID level or stripe size...
At the ORCA prompt: If you are connected using a headless console, press the Esc+8 combination. Otherwise, press F8. The ORCA Main Menu displays, enabling you to create, view, or delete a logical drive. Figure 100 ORCA Main Menu Creating a Logical Drive Using ORCA To create a logical drive using ORCA, follow these steps: Select Create Logical Drive.
D Utilities This appendix describes the utilities that are part of the server. These include the EFI Boot Manager, EFI-POSSE, and Integrity iLO 2. Extensible Firmware Interface Boot Manager The Extensible Firmware Interface (EFI) is an OS and platform-independent boot and preboot interface.
The following options are available in the EFI Boot Manager menu: Boot from a File—Automatically adds EFI applications as boot options or enables you to boot from a specific file. When you select this option, the system searches for an EFI directory. If the EFI directory is found, then it looks in each of the subdirectories below EFI.
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Table 90 EFI Commands (continued) EFI Shell BCH Command BCH Command Parameters (PA-RISC) Definition Command Equivalent (PA-RISC) COnfiguration autoboot AUto [BOot | SEarch | STart] [ON | OFF] Display or set the auto start flag info boot BootID [<processor #>[<bootid #>]] Display or set processor boot identifier EFI Boot Manager...
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Example 2 help command Shell> help List of classes of commands: boot -- Booting options and disk-related commands configuration -- Changing and retrieving system information devices -- Getting device, driver and handle information memory -- Memory related commands shell -- Basic shell navigation and customization scripts -- EFI shell-script commands Type "help"...
Example 5 help cpuconfig command Shell> help cpuconfig CPUCONFIG [cpu] [on | off] Specifies which cpu to configure on | off Specifies to configure or deconfigure a cpu Notes: 1. Cpu status will not change until next boot Examples: * To deconfigure CPU 0 fs0:\>...
Syntax baud <index> <baudrate> Parameters <index> 0 through the total number of UARTS minus one <baudrate> baud rate. Operation Use this command to change the speed for a UART in the system. This command works for all UARTs visible to EFI/POSSE. If the UART is part of processor dependent hardware (PDH) space and is initialized by the core firmware, this command communicates the settings to core firmware so the UART can be initialized with the new settings on the next boot.
Example 7 boottest command Shell> boottest BOOTTEST Settings Default Variable Selftest Setting ------------- ------------------------- booting_valid On (OS speedy boot aware) early_cpu Run this test late_cpu Run this test platform Run this test chipset Run this test io_hw Run this test mem_init Run this test mem_test...
Example 12 conconfig 2 primary command To change primary operating system console Shell> conconfig 2 primary CONSOLE CONFIGURATION Index Status Type Device Path ----- ------ ---- ----------- Serial Acpi(PNP0501,0) Serial Acpi(HWP0002,0)/Pci(1│1) Acpi(HWP0002,0)/Pci(4│0) Example 13 conconfig 3 off command To disable a console Shell>...
Example 15 ioconfig command Shell> ioconfig Deconfigure or reconfigure IO components or settings IOCONFIG [fast_init | wol [on | off]] fast_init Specifies device connection policy setting mps_optimie Specifies PCIe optimization setting Specifies System Wake-On-LAN setting on | off Specifies to configure or deconfigure a feature or component Note: 1.
Syntax errdump [mca | cpe | cmc | init | la | clear] Parameters dumps the Machine Check Abort error log dumps the Corrected Platform Error log dumps the Corrected Machine Check log init dumps the Initialization log dumps the Logic Analyzer log clear erases all of the logs (mca, cpe, cmc, init, la) Operation...
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Example 16 info all command Shell> info all SYSTEM INFORMATION Date/Time: Oct 31, 2003 22:03:39 (20:03:10:31:22:03:39) Manufacturer: Product Name: server bl60p Product Number: A9901A Serial Number: MYJ3350026 UUID: 48B4F371-E34C-11D6-A8D6-07A8C14CB68B System Bus Frequency: 200 MHz PROCESSOR MODULE INFORMATION # of Family/ Logical Cache Cache...
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Example 17 info cpu command Shell> info cpu PROCESSOR MODULE INFORMATION # of Family/ Logical Cache Cache Model Processor Slot CPUs Speed Size Size (hex.) State ---- ------- -------- ------ ------ ------- ------------ 1 GHz 1.5 MB None 1F/01 Active 1 GHz 1.5 MB None...
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Example 19 info io command Shell> info io I/O INFORMATION BOOTABLE DEVICES Order Media Type Path ----- ---------- --------------------------------------- CDROM Acpi(HWP0002,0)/Pci(2|0)/Ata(Primary,Master)/CDROM(Entry0) Vendor Device Slot Path ------ ------ ----------- 0x1033 0x0035 Acpi(HWP0002,0)/Pci(1|0) 0x1033 0x0035 Acpi(HWP0002,0)/Pci(1|1) 0x1033 0x00E0 Acpi(HWP0002,0)/Pci(1|2) 0x1095 0x0649 Acpi(HWP0002,0)/Pci(2|0) 0x8086 0x1229 Acpi(HWP0002,0)/Pci(3|0)
Example 20 info boot command Shell> info boot BOOT INFORMATION Monarch CPU: Current Preferred Monarch Monarch Possible Warnings -------- --------- ------------------ AutoBoot: on - Timeout is : 7 SEC Boottest: boottest Settings Default Variable OS is not speedy boot aware. Selftest Setting ----------...
Operation If specified with no parameters, monarch displays the Monarch processor for the system. Specifying a processor number alters the preferred Monarch processor. None of these changes takes affect until after a reboot. Example 22 monarch command Shell> monarch Current Preferred Monarch Monarch...
Example 23 pdt command Shell> pdt PDT Information Last Clear time: PDT has not been cleared Number of total entries in PDT: Number of used entries in PDT: Number of free entries in PDT: Number of single-bit entries in PDT: Number of multi-bit entries in PDT: Address of first multi-bit error: x0000000000000000...
Example 25 sysmode command Shell> sysmode System Mode: NORMAL Shell> sysmode admin You are now in admin mode. Shell> sysmode service You are now in service mode. Shell> sysmode normal You are now in normal mode Specifying SCSI Parameters The following SCSI parameters can be configured for the SCSI board: SCSI ID (SCSI initiator ID) Maximum data transfer rate (SCSI rate) Bus width...
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To map the parameters for all PCI cards installed in the system, enter the shell> info io command at the EFI Shell prompt. A list of all the devices that are installed in the server and managed by EFI drivers displays. For example: Vendor Device Slot Path...
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Using the SCSI interface information from this example, the combined information that tells you this is a SCSI interface are the following (shown in bold, for highlighting purposes): 0x1000 0x0030 Acpi(HWP0002,200)/Pci(1|0) 0x1000 0x0030 Acpi(HWP0002,200)/Pci(1|1) The vendor (0x1000) and device (0x0030) are the IDs for a SCSI interface. Of the devices with those IDs, this device has two channels (Fnc # of 00 followed by Fnc # of 01).
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TIP: From this command (drvcfg), record these two pieces of information for each channel of each SCSI interface for parameters to be changed: Drv(the EFI driver’s handle) Ctrl(the controller’s handle) Using the driver’s handle [Drv] and the controller’s handle [Ctrl] from the drvcfg command, start the EFI SCSI Setup Utility for one channel of this SCSI interface.
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PCI Bus, PCI Device, and PCI Function to the Bus #, Dev #, and Fnc # values from the info io command. CAUTION: Do not change the value for any of the following fields on the Adapter Properties screen: Auto Termination SCSI Parity SCSI Bus Scan Order Spinup Delay (Secs)
13. Select the option for exiting the utility. 14. When prompted, press Enter to stop the SCSI interface; you are at the EFI Shell prompt. 15. At the EFI Shell prompt, enter the following command: Shell> reset The system starts to reboot. This is required to enable the new SCSI setting. Using the Boot Option Maintenance Menu This menu enables you to select console output and input devices as well as various boot options.
Boot From a File Use this option to manually run a specific application or driver. NOTE: This option boots the selected application or driver one time only. When you exit the application, you return to this menu. This option displays the file systems on your server or workstation and enables you to browse these file systems for applications or drivers that are executable.
Load File [Acpi(HWP0002,0)/Pci(3|0)/Mac(00306E4C4F1A)] Exit Where: NO VOLUME LABEL: A hard drive. You can search through the disk for bootable applications to add to the Boot Manager list of Boot options. Removable Media Boot: Treats the removable media as a bootable device. Load File EFI Shell: Adds a new instance to the EFI Shell.
VenHw(D65A6B8C-71E5-4DF0-A909-F0D2992B5AA9) Boot0000 Manage BootNext Setting Use this option to run the selected boot option immediately upon entering the main Boot Manager menu. Select this option to boot an option that only needs to be booted once, without changing any other setting in the main Boot Manager menu. This is a one-time operation and does not change the permanent system boot settings.
VGA monitor and a serial port for directing output to a terminal emulation package. NOTE: Multiple consoles are not supported for HP-UX or Windows. Use the Smart Setup CD to switch between COM A and the iLO 2 MP on Windows systems.
NOTE: Some operating systems support multiple input devices, such as a simultaneous serial and keyboard input. See your OS documentation to determine how many consoles are supported with your system. For example: Select the Console Input Device(s) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(PcAnsi) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100) * Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(Vt100+) Acpi(PNP0501,0)/Uart(9600 N81)/VenMsg(VtUtf8) Acpi(HWP0002,700)/Pci(1|1)/Uart(9600 N81)/VenMsg(PcAnsi)
Security/Password Menu You can set administrator and user passwords to provide different levels of access to the system firmware. Resetting Passwords If you forget your passwords, reset them by running using the iLO 2 MP <Ctrl+N>rs command. This command resets the iLO 2 MP and resets the password. NOTE: You can only run this command when directly connected to the server.
E Warranty and regulatory information For important safety, environmental, and regulatory information, see Safety and Compliance Information for Server, Storage, Power, Networking, and Rack Products, available at www.hpe.com/support/Safety-Compliance-EnterpriseProducts. Warranty information HPE ProLiant and x86 Servers and Options www.hpe.com/support/ProLiantServers-Warranties HPE Enterprise Servers www.hpe.com/support/EnterpriseServers-Warranties HPE Storage Products www.hpe.com/support/Storage-Warranties...
Local representative information Kazakh: Russia: Belarus: Kazakhstan: Manufacturing date: The manufacturing date is defined by the serial number. CCSYWWZZZZ (serial number format for this product) Valid date formats include: YWW, where Y indicates the year counting from within each new decade, with 2000 as the starting point;...
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Index cable kit part numbers, 269 Symbols caution, light pipes, 169 24-DIMM memory carrier assembly cell board, 73 removing, 204 cfggen utility, 101 replacing, 205 CM command, 89, 90 48-DIMM memory carrier assembly see memory cold-swappable removing, 204 components, listed, 175 replacing, 205 defined, 175 8 Internal Port SAS HBA controller, 90, 282...
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user accounts, 84 ebsu, 309 device paths, PCI/PCI-X/PCIe , 197, 199 mptutil, 282 DHCP and DNS orca, 312, 313 using to configure the iLO 2 MP LAN, 80 saupdate, 306 DHCP-enabled security risk, 81, 85 configurable components, 338 diagnostic panel, 25 device paths, PCI/PCI-X/PCIe, 197, 199 see also display board driver handle, 339...
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270 LAN link speed LEDs, 35 HPE Smart Array P400 LAN link status LEDs, 35 completing installation logging in, 83 HP-UX, 272–274 main menu, 84 Linux, 274 PC command, 89 Windows, 274 reset button, 34 connecting device, 272...
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Online Replacement see OLR iLO 2 MP LAN link speed, 35 operating system iLO 2 MP LAN link status, 35 booting and shutting down HP-UX, 119 iLO 2 MP status, 35 booting and shutting down Linux, 130 internal health, 29...