HP StorageWorks Enterprise Virtual Array 3000/5000 user guide Part number: 5697–5480 Tenth edition: March 2006
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Contents About this guide . . . . . . . . . . . . . . . . . . . . . . . . . Overview . . . . . . . . . . . . Intended audience . . . . . . Related documentation . . . . Document conventions and symbols Rack stability . . . . . . . . . . HP technical support . . . . . . . HP-authorized reseller . . . . Helpful web sites . . . . . . Subscribing to proactive updates HP product documentation survey . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Operating tips and information . . . . . . . . Reserving adequate free space . . . . . . Using FATA disk drives . . . . . . . . . . . . Failback preference setting for HSV controllers . . Changing virtual disk failover/failback setting Storage system shutdown and powerup . . . . . Shutting down the storage system . . . . . Powering up the storage system . . . . . . Saving storage system configuration data . . . . Adding disk drives to the storage system . . . . Guidelines for adding disk drives . . . . .
Displaying system information . . . . . . . Displaying versions system information . . . Shutting down the system . . . . . . . . . Shutting the controller down . . . . . . . . Restarting the system . . . . . . . . . . . Uninitializing the system . . . . . . . . . Password options . . . . . . . . . . . . Changing a password . . . . . . . . . . Clearing a password . . . . . . . . . . . Setting up a controller pair using the OCP . . Power supply/blower assembly . . . . . . . . Cache battery . . . . . . . . .
Laser device . . . . . . . . . . . . Laser safety warnings . . . . . . Compliance with CDRH regulations Certification and classification information Canadien notice (avis Canadien) . . . Class A equipment . . . . . . . . Class B equipment . . . . . . . . European union notice . . . . . . . . Notice for France . . . . . . . . . . WEEE Recycling Notices . . . . . . . English notice . . . . . . . . . . Dutch notice . . . . . . . . . . Czechoslovakian notice . . . . . . Estonian notice . . . . . . . . .
0.2.en.03 CRITICAL condition—Power supply load unbalanced . . . . Blower conditions . . . . . . . . . . . . . . . . . . . . . . . . . 0.3.en.01 NONCRITICAL condition—Blower speed . . . . . . . . 0.3.en.02 CRITICAL condition—Blower speed . . . . . . . . . . . 0.3.en.03 UNRECOVERABLE condition—Blower failure . . . . . . . 0.3.en.04 UNRECOVERABLE condition—Blower internal . . . . . . 0.3.en.05 NONCRITICAL condition—Blower missing . . . . . . . . 0.3.en.06 UNRECOVERABLE condition—No blowers installed . . . .
GUI termination event display . . . . . . . . . GUI event display . . . . . . . . . . . . Fault management displays . . . . . . . . Displaying Last Fault Information . . . . Displaying Detailed Information . . . . Interpreting fault management information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figures 1 Storage system hardware components . . . . . . . . . . . . . . . 2 EVA5000 configuration . . . . . . . . . . . . . . . . . . . . . 3 EVA3000 configuration . . . . . . . . . . . . . . . . . . . . . 4 Location of the World Wide Name labels . . . . . . . . . . . . . 5 Disk drive activity indicator . . . . . . . . . . . . . . . . . . . . 6 Sequential building of vertical disk groups . . . . . . . . . . . . . 7 Removing the drive blank . . . . . . . . . . . . . . . . . . . .
Tables 1 Document conventions . . . . . . . . . . . . . . . . . . . . . . . 2 WWN push button functions . . . . . . . . . . . . . . . . . . . . 3 System password push button functions . . . . . . . . . . . . . . . . 4 Failback preference settings . . . . . . . . . . . . . . . . . . . . 5 Failback Settings by Operating System . . . . . . . . . . . . . . . . 6 Impact on virtual disk presentation when changing failover/failback setting 7 Operational I/O module status indicators . . . . . . . . . . . . . .
About this guide This user guide provides the following information: • • • • • • • Description of the HP StorageWorks Enterprise Virtual Array family and its components. Starting your storage system. Operating your storage system. Regulations and specifications. EMU-generated error condition reports. HSV fault management concepts. Installing customer replaceable units.
Document conventions and symbols Table 1 Document conventions Convention Element Medium blue text: Related documentation Cross-reference links and e-mail addresses Medium blue, underlined text (http://www.hp.
Rack stability WARNING! To • • • • • reduce the risk of personal injury or damage to equipment: Extend leveling jacks to the floor. Ensure that the full weight of the rack rests on the leveling jacks. Install stabilizing feet on the rack. In multiple-rack installations, secure racks together. Extend only one rack component at a time. Racks may become unstable if more than one component is extended.
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1 Enterprise Virtual Array description This chapter provides an overview of Enterprise Virtual Array and its components. Topics to be covered include: • Introduction to the Enterprise Virtual Array • New features and enhancements • Storage system components Introduction to the Enterprise Virtual Array The HP StorageWorks Enterprise Virtual Array family is a high performance, scaled capacity, on demand, "virtual" RAID storage system.
Ease of management Easy-to-use storage management tools: • Software tools that allow you to manage larger SAN configurations with more servers and more storage solutions • HP-supplied disk drives conform to the enclosure-initiated Enclosure Services Interface (ESI) • State-of-the-art controller software • Completely integrated configurations with a single part number, plus disk drives and storage system software Data availability • Redundant hardware design and value—added software eliminate single points
For the most current information on supported disk drives, refer to the HP StorageWorks Enterprise Virtual Array 3000/5000 release notes. See "Related documentation" on page 11 for links to this document. Operating system support • • • • • • • • • • HP–UX Microsoft Windows 2003 Microsoft windows 2000 HP Open VMS Tru64 Sun Solaris IBM AIX Linux VMware Novell NetWare For the most current information on supported operating systems, refer to the appropriate connectivity documents.
HP Command View EVA HP Command View EVA is the primary software application for managing the EVA. HP Command View EVA is used to perform the following administrative tasks. • Creating virtual disk families, including selection of Vraid level, cache policy, and host presentation. • Managing the presentation of Vraid drives to hosts. • Managing and monitoring storage system hardware. • Creating snapclones and snapshots of virtual disks.
Hardware The Enterprise Virtual Array includes the following hardware components: • Fibre Channel drive enclosure—Contains disk drives, power supplies, blowers, I/O modules, and an Environmental Monitoring Unit (EMU). • Fibre Channel loop switch—Provides twelve-port central interconnect for Fibre Channel drive enclosure FC Arbitrated Loops. Fibre Channel loop switches are used only on the EVA5000.
• • • • Environmental Monitoring Unit (EMU) Dual 2–Gbps FC I/O modules—A and B loops Dual redundant 500W power supplies and blowers Dual redundant blowers For ease of management, the disk drives are referred to by their physical location, the drive bay number. Fibre Channel loop switches The Fibre Channel loop switch acts as a central point of interconnection and establishes a fault-tolerant physical loop topology between the controllers and the disk enclosures.
Racks The rack provides the capability for mounting standard 483 mm (19 in) wide controller and drive enclosures. For additional information, see Racks. The following racks are available: • • • • • • • 22U Rack 25U Rack 33U Rack 36U Rack 41U Rack 42U Rack Universal Rack NOTE: Racks and rack-mountable components are typically described using “U” measurements. “U” measurements are used to designate panel or enclosure heights.
Enterprise Virtual Array description
2 Enterprise Virtual Array startup This chapter describes the procedures necessary to complete the installation and configuration of the Enterprise Virtual Array. When these procedures are complete, you can begin using your storage system. NOTE: Installation of the Enterprise Virtual Array should be done only by an HP authorized service representative. The information in this chapter provides an overview of the steps involved in the installation and configuration of the storage system.
Network Interconnection Browser Browser Non-Host Host X FCA Management Server Host Z FCA Fabric 1 FCA FCA Fabric 2 Command View EVA FP1 FP2 Cache Mirror Port Controller A Loop Loop Pair 1 Pair 2 FP1 FP2 Controller B Loop Loop Pair 2 Pair 1 FC Loop Switches A B Drive Enclosures A B FP = Fibre (Host) Port FCA = Fibre Channel Adapter FC Loop Switches CXO7947B Figure 2 EVA5000 configuration EVA3000 storage system connections Figure 3 shows a typical EVA3000 SAN topology: • The HSV100 con
Network Interconnection Browser Browser Non-Host Host X FCA Management Server Host Z FCA FCA FCA Command View EVA Fabric 2 Fabric 1 FP1 FP2 FP1 Cache Mirror Port Controller A Loop Pair 1 FP2 Controller B Loop Pair 1 B B Drive Enclosures A A FP = Fibre (Host) Port FCA = Fibre Channel Adapter 25060a Figure 3 EVA3000 configuration Procedures for getting started Step Responsibility 1. Gather information and identify all related storage documentation. Customer 2.
• HP StorageWorks Enterprise Virtual Array 3000/5000 read me first.
Entering the WWN Fibre Channel protocol requires that each controller pair have a unique WWN. This 16-character alphanumeric name identifies the controller pair on the storage system. Two WWN labels attached to the rack identify the storage system WWN and checksum. See Figure 4. NOTE: • The WWN is unique to a controller pair and cannot be used for any other controller pair or device anywhere on the network.
NOTE: If you enter an incorrect WWN or checksum, the system will reject the data and you must repeat the procedure. Entering the storage system password The eight-character storage system password feature enables you to restrict management access to the storage system. Table 3 describes the push button functions when using the password feature. Table 3 System password push button functions Button Function Selects a password character by scrolling up through the character list one character at a time.
Installing optional EVA software licenses If you purchased optional EVA software, it will be necessary to install the license. Optional software available for the Enterprise Virtual Array includes HP Business Copy and HP Continuous Access. Installation instructions are included with the license.
Enterprise Virtual Array startup
3 Enterprise Virtual Array operation This chapter presents the tasks that you might need to perform during normal operation of the storage system. Best practices For useful information on managing and configuring your storage system, refer to the HP StorageWorks Enterprise Virtual Array configuration best practices white paper available from http://h71028.www7.hp.com/ERC/downloads/5982-9140EN.pdf.
Table 4 Failback preference settings Setting Point in time Behavior No preference At initial presentation The units are alternately brought online to Controller A or to Controller B. On dual boot or controller resynch If cache data for a LUN exists on a particular controller, the unit will be brought online there. Otherwise, the units are alternately brought online to Controller A or to Controller B. On controller failover All LUNs are brought online to the surviving controller.
Setting Point in time Behavior Path A - Failover/ Failback At initial presentation The units are brought online to Controller A. On dual boot or controller resynch If cache data for a LUN exists on a particular controller, the unit will be brought online there. Otherwise, the units are brought online to Controller A. On controller failover All LUNs are brought online to the surviving controller. On controller failback All LUNs remain on the surviving controller.
Table 5 Failback Settings by Operating System Operating system Default behavior Settings supported Autoback done by the host No Preference, Path A/B - Failover Only. Tru64 UNIX Host follows the unit All settings allowed. Recommended setting: Path A/B - Failover/Failback. OpenVMS (7.3-1 and greater) Host follows the unit All settings allowed. Recommended setting: Path A/B - Failover/Failback. Windows® Auto failback done by the host No Preference, Path A/B - Failover Only.
Storage system shutdown and powerup The storage system is shut down using HP Command View EVA. The shutdown process performs the following functions in the indicated order: 1. 2. 3. 4. 5. Flushes cache Removes power from the controllers Disables cache battery power Removes power from the drive enclosures Disconnects the system from HP Command View EVA NOTE: The storage system may take a long time to complete the necessary cache flush during controller shutdown when snapshots are being used.
NOTE: Before applying power to the rack, ensure that the power switch on each HSV controller is off. 3. Power on the circuit breakers on both EVA rack PDUs. Verify that all drive enclosures are operating properly. The status indicator and the power indicator should be on (green). 4. Wait three minutes and then verify that all disk drives are ready. The drive ready indicator and the drive online indicator should be on (green). 5. Power on the upper controller. It takes the roll of master controller. 6.
5. Enter CAPTURE CONFIGURATION, specifying the full path and filename of the output files for the configuration data. The configuration data is stored in a series of from one to five files, which are SSSU scripts. The file names begin with the name you choose, with the restore step appended. For example, if you specify a file name of LargeEVA.txt, the resultant configuration files would be LargeEVA_Step1A.txt, LargeEVA_Step1B, etc. The contents of the configuration files can be viewed with a text editor.
Adding disk drives to the storage system As your storage requirements grow, you may be adding disk drives to your storage system. Adding new disk drives is the easiest way to increase the storage capacity of the storage system. Disk drives can be added online without impacting storage system operation. Guidelines for adding disk drives When adding new disk drives to the storage system, you should ensure that the disk drives are installed in the correct positions to maintain availability.
NOTE: Standard and FATA disk drives must be in separate disk groups. Disk drives of different capacities and spindle speeds can be included in the same disk group, but you may want to consider separating them into separate disk groups. 1 2 CX8167-ST Figure 6 Sequential building of vertical disk groups 1. Disks installed in first group 2. Disks installed in second group Adding a disk drive This section describes the procedure for adding a Fibre Channel disk drive. Removing the drive blank 1.
2 1 CXO7359B ˚ Figure 7 Removing the drive blank 1. Upper mounting tab 2. Lower mounting tab Changing the Device Addition Policy To prevent the storage system from automatically grouping a new disk drive that may have the incorrect firmware on it, the Device Addition Policy must be checked and set to manual if necessary: 1. Open Command View VA and in the Navigation pane select the storage system. The Initialized Storage System Properties window opens. 2. Click System Options 3.
NOTE: It may take up to 10 minutes for the component to display good status. • Check the disk drive status indicators. See Figure 9. • Activity indicator (1) should be on or flashing • Online indicator (2) should be on or flashing • Fault indicator (3) should be off • Check the following using Command View EVA. . • Navigate to the disk drive and check the operational state. It should be • Record the Model number and the Firmware version.
Handling fiber optic cables This section provides protection and cleaning methods for fiber optic connectors. Contamination of the fiber optic connectors on either a transceiver or a cable connector can impede the transmission of data. Therefore, protecting the connector tips against contamination or damage is imperative. The tips can be contaminated by touching them, by dust, or by debris. They can be damaged when dropped.
4 Enterprise Virtual Array hardware components This chapter describes the Enterprise Virtual Array hardware components. Topics to be discussed include: • • • • Fibre Channel drive enclosures Fibre Channel loop switches HSV controllers Racks Fibre Channel drive enclosures The drive enclosure contains the disk drives used for data storage. A storage system includes multiple drive enclosures. The major components of the enclosure are: • • • • • • • • 2.
1 2 Front 10 10 Rear 3 4 6 5 8 7 9 0112a Figure 10 FC drive enclosure—front and rear views 1. Drive bay 1 2. Drive bay 14 3. EMU 4. I/O module B 5. Blower 1 6. Power supply 1 7. Blower 2 8. Power supply 2 9. I/O module A 10. Status indicators (EMU, enclosure power, enclosure fault) I/O modules Two I/O modules provide the interface between the drive enclosure and the host controllers. See Figure 11.
2 1 3 0107a Figure 11 I/O module 1. Status indicators (Upper port, Power, and Lower port) 2. Upper port 3. Lower port The I/O modules are functionally identical, but are not interchangeable. Module A can only be installed at the right end of the enclosure, and module B can only be installed at the left end of the enclosure. See Figure 10. Each I/O module has two ports that can both transmit and receive data for bidirectional operation. Activating a port requires connecting a FC cable to the port.
Table 7 Operational I/O module status indicators Upper Power Lower Off On Off • I/O Module is operational On Flashing, then On On • Top port—Fibre Channel drive enclosure signal detected. • Power—Flashes for about 90 seconds after initial power application, then remains constant. • Bottom port—Fibre Channel drive enclosure signal detected. On On On • Top port—Fibre Channel drive enclosure signal detected. • Power—Present. • Bottom port—Fibre Channel drive enclosure signal detected.
Fibre Optic Fibre Channel cables The Enterprise Virtual Array uses orange, 50-μm, multi-mode, fiber optic cables for connection to the SAN. The fiber optic cable assembly consists of two, 2–m fiber optic strands and small form-factor connectors on each end. See Figure 13. To ensure optimum operation, the fiber optic cable components require protection from contamination and mechanical hazards. Failure to provide this protection can cause degraded operation.
Up to 14 disk drives can be installed in a drive enclosure. Disk drive status indicators Three status indicators display the drive operational status. Figure 15 shows the disk drive status indicators. Table 9 provides a description of each status indicator. Figure 15 Disk drive status indicators 1. Activity 2. Online 3. Fault Table 9 Disk drive status indicator descriptions Description Status indicator Activity Online Fault This green status indicator flashes when the disk drive is being accessed.
Table 10 Operational disk drive status indications Activity Online Fault Description Flashing On Off Initial startup. On On Off The drive is online but is not being accessed. Flashing Flashing Flashing Flashing On Off The drive is being located. The drive is operational and active. Table 11 Non-operational disk drive status indications Activity Online Fault Description On On On Indicates no connection or the controllers are offline. Recommended corrective actions: 1.
Power supplies The two power supplies mount in the rear of the enclosure. See Figure 16. The supplies are autoranging and operate on a country-specific AC input voltage of 202 to 240 VAC ±10%, 50 to 60 Hz, ±5%, (188 to 264 VAC, 47 to 63 Hz). The DC outputs of this power supply are: • +5.1 VDC for the EMU, I/O module, backplane, and disk drives • +12.1 VDC for the disk drives • +12.5 VDC for the disk drives The output of each power supply is 499W, with a peak output of 681W.
Table 12 Power supply/blower status indicators Blower status indicator Description On Both the power supply and the blower are operational. Flashing The power supply or the blower locate function is active. Off The power supply or the blower is non–operational. When there is a blower problem, the other blower runs at a higher speed. Recommended corrective actions: • Check blower for proper operation. Replace if defective. • Check power supplies for proper operation. Replace if defective.
Figure 17 EMU controls and displays 1. a. b. c. Status indicators: EMU—This flashing green is the heartbeat for an operational EMU. Enclosure power—When both the +5 VDC and +12 VDC are correct, this green indicator is on. Enclosure fault—This amber indicator is normally off. The indicator is lit when an enclosure error condition exists. 2. Alphanumeric display—A two-character, seven–segment alphanumeric display of the enclosure functions and status. 3.
NOTE: Although the EMU can determine the logical address of a drive, the EMU can neither display nor change this information. HP Command View EVA can display the addresses from the EMU-supplied status information. EMU monitoring functions The internal EMU circuitry monitors the enclosure and component functions listed in Table 13.
EMU indicator displays The EMU status indicators are located above the alphanumeric display. See Figure 17. These indicators present the same information as those on the front, lower right corner of the enclosure. You can determine the EMU and enclosure status using the information in EMU LED displays table. Table 15 EMU status indications EMU indicator (green) Power indicator (green) Fault indicator (amber) Status and recommended actions Flashing Flashing Flashing The EMU Locate function is active.
Table 16 EMU display groups Description Display Display group En Enclosure Number The enclosure number is the default display and is a decimal number in the range 00 through 14. See Using the Enclosure Number Feature for detailed information. Li Bay 1 Loop ID This display group has a single sublevel display that defines the enclosure bay 1 loop ID. Valid loop IDs are in the range 00 through 7F.
Table 17 Audible alarm sound patterns Condition type Cycle 1 Cycle 2 UNRECOVERABLE CRITICAL NONCRITICAL INFORMATION Legend Alarm Off Alarm On Controlling the audible alarm You can control the alarm with the push buttons. This process includes muting, enabling, and disabling. When an error condition exists, the alphanumeric display reads Er, the alarm sounds, and you can: • Correct all errors, thereby silencing the alarm until a new error occurs.
4. Press and release the bottom push button to accept the change and to display Au. The bottom push button indicator is now off. Muting or unmuting the audible alarm You may want to mute the alarm in the following situations: • The error does not require immediate corrective action. • You cannot correct the error at this time. For example, the error may require a replacement part. To mute the audible alarm: NOTE: Er is displayed in the alphanumeric display when an error condition is present. 1.
Enclosure number feature This section provides a description of the purpose, function, and operation of the EMU enclosure number (En) feature. En description In a single rack configuration, the En is a decimal number in the range 00 through 14, which is automatically assigned by the enclosure address bus. NOTE: Your storage system may use an enclosure address bus higher than 14 if your configuration includes an optional expansion cabinet. The enclosure address bus connection determines the En.
13 13 12 11 10 9 8 13 7 6 5 4 3 2 1 0046a-2 Figure 18 Enclosure numbering with enclosure ID expansion cables NOTE: If an expansion rack is used, the enclosure numbering shown above may change or contain additional numbering. Refer to the HP StorageWorks Enterprise Virtual Array hardware configuration guide for more information. For more information about the reporting group number, see Viewing the Reporting Group Feature.
Figure 19 Enclosure address bus components with enclosure ID expansion cables 1. Shelf ID expansion cable port 1—Disk enclosure 1 2. Shelf ID expansion cable port 2—Disk enclosure 2 3. Shelf ID expansion cable port 3—Disk enclosure 3 4. Shelf ID expansion cable port 4—Disk enclosure 4 5. Shelf ID expansion cable port 5—Disk enclosure 5 6. Shelf ID expansion cable port 6—Disk enclosure 6 7. Shelf ID expansion cable port 7—Controller enclosures 8. Shelf ID expansion cable port 8—Disk enclosure 8 9.
NOTE: An error always generates a condition report. Not all condition reports are generated by errors. Error condition categories Each error condition is assigned to a category based on its impact on disk enclosure operation. The following four error categories are used: • Unrecoverable—the most severe error condition, it occurs when one or more enclosure components have failed and have disabled some enclosure functions.
Correcting the error removes the associated condition from the error queue. Replacing the EMU will also clear the error conditions. The order in which the EMU displays the error queue information is based on two factors: • The severity of the error • The time the error occurred The most severe error in the queue always has precedence, regardless of how long less severe errors have been in the queue. This ensures that the most severe errors are displayed immediately.
2 1 2 2 en. e.t. Er 3 4 ec 3 3 2 e.t. 2 en. ec CXO8233A 1 Press & hold top push button to view first error in queue. 2 Press & release top push button. 3 Press & hold top push button to view next error. 4 Press and release the bottom push button at any time to return to the Er display. e.t. = element type, en. = element number, ec = error code Figure 20 Displaying error condition values Analyzing condition reports Analyzing each error condition report involves three steps: 1.
Reporting group numbers The reporting group number (RGN) range is 0000 through 4099, decimal. • • • • 0000 is reserved for enclosures that are not part of any reporting group. 0001 through 0015 are RGNs reserved for use by the EMU. 0016 through 4095 are valid RGNs. 4096 through 4099 are invalid RGNs. The reporting group numbers are displayed on the EMU alphanumeric display as a pair of two-digit displays. These two displays are identified as rH and rL.
42 1 3 5 42 3 4 6 7 8 9 10 Figure 21 FC loop switch 1. Handle 2. Bezel snaps 3. Alignment tabs 4. Walk-up RS232 port 5. SFP status indicator 6. Port Bypassed indicator 7. POST fault indicator 8. Over Temp indicator 9. Power indicator 10. Loop operational indicator Power-on self test (POST) When you power on the Fibre Channel switch, it performs a Power–on Self Test (POST) to verify that the switch is functioning properly.
Table 19 Fibre Channel switch system indicators Description System indicator Power A green indicator. When lit, this indicates that the switch is plugged in and the internal power is functional. Loop operational A green indicator. When lit, this indicates that the Fibre Channel loop has completed initialization and is now operational. POST fault An amber indicator. When lit, this indicates that the internal hardware self-test failed and the switch will not function. OvertTemp An amber indicator.
Table 21 Fibre Channel switch basic troubleshooting Problem Recommended action SFPs are installed in ports but no indicators are lit. 1. SFP is installed, but the Port Bypassed indicator is lit. Re-seat the SFP. If the same condition occurs, the SFP is probably faulty and should be replaced. SFP is installed, but the SFP status indicator and the Port Bypassed indicator are lit.
2 Front 1 Rear 10 3 4 5 6 7 8 9 CXO8040A Figure 22 HSV controller 1. Bezel 2. OCP 3. Host port FP1 4. Host port FP2 5. Mirror port 6. Device port 1B 7. Device port 2B (HSV110 only) 8. Device port 1A 9. Device port 2A (HSV110 only) 10. AC input connectors High availability features Two interconnected controllers ensure that the failure of a controller component does not disable the system.
1 2 3 CXO7638A Figure 23 Controller OCP 1. Status indicators (see Table 22) 2. 40–character alphanumeric display 3. Left, right, top, and bottom push buttons Status indicators The status indicators display the operational status of the controller. The function of each indicator is described in Table 22. During initial setup, the status indicators might not be fully operational.
Navigation buttons The operation of the navigation buttons is determined by the current display and location in the menu structure. Table 24 defines the basic push button functions when navigating the menus and options. To simplify presentation and to avoid confusion, the push button reference names, regardless of labels, are left, right, top, and bottom.
NOTE: To exit any menu, press Esc or wait ten seconds for the OCP display to return to the default display. Table 25 identifies the menu options available within the OCP display. CAUTION: Some of the configuration settings available through the OCP impact the operating characteristics of the storage system. You should not change any setting unless you understand how it will impact system operation. For more information on the OCP settings, contact your HP-authorized service representative.
1. The default display alternates between the Storage System Name display and the World Wide Name display. Press any push button to display the Storage System Menu Tree. 2. Press until the desired Versions Menu option appears, and then press sub–menu items. or to move to Shutting down the system CAUTION: To power off the system for more than 96 hours, use HP Command View EVA. You can use the Shutdown System function to implement the shutdown methods listed below.
3. Press to scroll to Power Off. 4. Press to select Power Off. 5. Power off system is displayed. Press Enter to power off the system. Restarting the system To restore the controller to an operational state, use the following procedure to restart the system. 1. Press three times to scroll to the Shutdown Options menu. 2. Press to select Restart. 3. Press to display Restart system?. 4. Press Enter to go to Startup. No user input is required.
NOTE: Changing a system password on the controller requires changing the password on any HP Command View EVA with access to the storage system. 1. Select a unique, eight-character password. 2. From the default menus (Storage System Name or World Wide Name) displayed, press times to display System Password. 3. Press three to display Change Password? 4. Press Enter for yes. The default password, AAAAAAAA, is displayed. 5. Press 6. Press or to select the first character.
Cache battery Two cache batteries provide backup power to maintain the contents of the controller cache when AC power is lost and the storage system has not been shutdown properly. When fully charged the batteries can sustain the cache contents for to 96 hours. The batteries are located behind the OCP. Each battery includes an amber status indicator which will be on if the battery fails. If the status indicator is on, the battery should be replaced as soon as possible.
CXO7549A NEMA L6-30R receptacle, 3-wire, 30-A, 60-Hz CXO5409B IEC 309 receptacle, 3–wire, 30–A, 50–Hz Figure 24 60–Hz and 50–Hz wall receptacles • The standard power configuration for any Enterprise Virtual Array rack is the fully redundant configuration. Implementing this configuration requires: • Two separate circuit breaker-protected, 30–A site power sources with a compatible wall receptacle (see Figure 24). • One dual PDU assembly. Each PDU connects to a different wall receptacle.
1 2 3 5 4 5 0130a Figure 25 Dual PDU assembly 1. PDU 1 2. PDU 2 3. Circuit breakers 4. AC receptacles 5. Mounting hardware PDU 1 PDU 1 connects to AC power distribution source 1. A PDU 1 failure: • • • • Disables the power distribution circuit. Removes power from PDMs 1, 2, and 3. Disables PS 1 in the drive enclosures. Disables the upper controller power supply. PDU 2 PDU 2 connects to AC power distribution source 2. A PDU 2 failure: • • • • Disables the power distribution circuit.
1 2 3 0131a Figure 26 Rack PDM 1. Power receptacles 2. Thermal circuit breakers 3. AC power connector Rack AC power distribution The power distribution in an Enterprise Virtual Array rack is the same for all variants. The site AC input voltage is routed to the dual PDU assembly mounted in the rack lower rear. Each PDU distributes AC to a maximum of four PDMs mounted on the left and right vertical rails (see Figure 27). • PDMs PDMs • PDMs PDMs 1 through 3 connect to receptacles A through D on PDU 1.
Figure 27 Rack AC power distribution 1. PDM 1 2. PDM 2 3. PDM 3 4. PDU 1 5. PDM 4 6. PDM 5 7. PDM 6 8. PDU 2 Rack System/E power distribution components AC power is distributed to the Rack System/E rack through Power Distribution Units (PDU) mounted on the two vertical rails in the rear of the rack. Up to four PDUs can be mounted in the rack—two mounted on the right side of the cabinet and two mounted on the left side. Each of the PDU power cables has an AC power source specific connector.
Moving and stabilizing a rack WARNING! The physical size and weight of the rack requires a minimum of two people to move. If one person tries to move the rack, injury may occur. To ensure stability of the rack, always push on the lower half of the rack. Be especially careful when moving the rack over any bump (e.g., door sills, ramp edges, carpet edges, or elevator openings). When the rack is moved over a bump, there is a potential for it to tip over.
1 2 CXO7589A Figure 29 Raising a leveler foot 1. Hex nut 2. Leveler foot 3. Carefully move the rack to the installation area and position it to provide the necessary service areas (see Figure 28). To stabilize the rack when it is in the final installation location: 1. Use a wrench to lower the foot by turning the leveler foot hex nut clockwise until the caster does not touch the floor. Repeat for the other feet. 2. After lowering the feet, check the rack to ensure it is stable and level. 3.
Enterprise Virtual Array hardware components
5 Customer replaceable units This chapter describes the procedures for replacing CRUs. Information about initial enclosure installation, ESD protection, and common replacement procedures is also presented. Customer self repair (CSR) HP products are designed with many Customer Self Repair (CSR) parts to minimize repair time and allow for greater flexibility in performing defective parts replacement.
For parts only warranty service, CSR part replacement is mandatory. If you request HP to replace these parts, you will be charged for the travel and labor costs of this service. Best practices for replacing hardware components The following information will help you replace the hardware components on your storage system successfully. Follow these tips any time you must replace a component. CAUTION: Removing a component significantly changes the air flow within the enclosure.
Figure 30 Typical product label • The spare part number for each disk drive is listed on the capacity label attached to each drive. See Figure 31.
Table 27 Hardware component CSR support Part description Assembly part number Spare part number Disk enclosure blower 70-40085-01 123482-001 (70-40085–S1) Optional2 Disk enclosure power supply 30-50872-XXXX=01, 02, 03, 12, 13 212398-001 (30-50872-S1 or -S2) Optional2 Disk drive – 300 GB 10K 365608-001 366023-001 Optional Disk drive – 250 GB FATA 365606-001 366022-001 Optional Disk drive – 146 GB 10K 293557-001 300590-001 Optional Disk drive – 146 GB 15K 365610-001 366024-001 Option
Replacing the failed component CAUTION: Components can be damaged by electrostatic discharge. Observe the following proper anti-static protection: • Always transport and store CRUs in an ESD protective enclosure. • Do not remove the CRU from the ESD protective enclosure until you are ready to install it. • Always use ESD precautions, such as a wrist strap, heel straps on conductive flooring, and an ESD protective smock when handling ESD sensitive equipment.
CAUTION: Make sure you have a replacement part available before removing the failed component. Removing a component impacts cooling within the enclosure. Do not remove more than one disk drive at a time from the enclosure. Doing so will impact cooling of the enclosure and may cause data loss. Parts can be damaged by electrostatic discharge. Use proper anti-static protection. Refer to the documentation that shipped with your system for additional information.
1. Activity 2. Online 3. Fault Figure 32 Disk drive status indicators Removing a disk CAUTION: Rotating media can make the disk drive difficult to handle. To avoid dropping and damaging the disk drive, wait approximately 30 seconds for the media to stop rotating before removing the drive from the enclosure. 1. Push in the wine-colored ejector push button (1, Figure 33) and pull the release lever (2) down to the full open position. 2.
5. Click Save changes Installing a disk drive 1. Push in the ejector push button on the disk drive and pull the release lever down to the full open position. 2. Insert the drive into the enclosure as far as it will go (1, Figure 34). 3. Close the release lever until it engages the ejector push button, and the disk drive seats in the backplane (2). 4. Press in firmly on the disk drive to ensure it is seated properly.
2. In the Content pane, select the Disk Drive tab. 3. Click Group to initiate the process for adding the disk to a disk group. NOTE: If the Device Addition Policy is set to automatic, the disk will automatically be added to a disk group. In this case the Group option will not be available. Returning the failed component Please follow the return instructions provided with the new component.
1. In the Navigation pane, select Storage system > Hardware > Rack > Disk enclosure 2. In the Content pane, select the Power tab or the Cooling tab then the appropriate component (1 or 2). The Operational state should be Failed. 3. To help identify the correct enclosure, click Locate > Locate On to flash the status indicators on the front of the disk enclosure. • Check the power supply/blower status indicator. See Figure 35. It should be off. 1 2 3 Figure 35 Power supply/blower status indicator 1.
1. Align the blower guide post (2, Figure 37) with the mounting hole next to the power supply connector (1). 2. Slide the blower onto the power supply (4) until the mounting tabs (3) snap into place. Figure 37 Installing a blower Removing a power supply CAUTION: When a power supply is removed, the enclosure could shut down within seven minutes due to overheating unless the power supply is replaced. 1. Disengage the power cord lock (1, Figure 38) and disconnect the power cord from the power supply.
Figure 38 Removing a power supply Installing a power supply 1. Lift up on the module latch (1, Figure 39) and slide the power supply into the enclosure until it is fully seated. 2. Connect the power cord to the power supply and engage the cord lock. Figure 39 Installing a power supply Verifying proper operation After replacing the power supply or blower, check the following to verify that the component is operating properly: NOTE: It may take up to 10 minutes for the component to display good status.
• From Command View EVA • Navigate back to the component and check the status. It should be . • Turn off the locate function by clicking Locate > Locate Off Returning the failed component Please follow the return instructions provided with the new component.
Customer replaceable units
A Regulatory notices and specifications This appendix includes regulatory notices and product specifications for the HP StorageWorks Enterprise Virtual Array family.
Class A equipment This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Laser safety warnings Heed the following warning: WARNING! WARNING: To reduce the risk of exposure to hazardous radiation: • Do not try to open the laser device enclosure. There are no user-serviceable components inside. • Do not operate controls, make adjustments, or perform procedures to the laser device other than those specified herein. • Allow only HP authorized service technicians to repair the laser device.
European union notice Products with the CE Marking comply with both the EMC Directive (89/336/EEC) and the Low Voltage Directive (73/23/EEC) issued by the Commission of the European Community.
Tento symbol na produktu nebo balení označuje výrobek, který nesmí být vyhozen spolu s ostatním domácím odpadem. Povinností uživatele je předat takto označený odpad na předem určené sběrné místo pro recyklaci elektrických a elektronických zařízení. Okamžité třídění a recyklace odpadu pomůže uchovat přírodní prostředí a zajistí takový způsob recyklace, který ochrání zdraví a životní prostředí člověka.
Das Symbol auf dem Produkt oder seiner Verpackung weist darauf hin, dass das Produkt nicht über den normalen Hausmüll entsorgt werden darf. Benutzer sind verpflichtet, die Altgeräte an einer Rücknahmestelle für Elektro- und Elektronik-Altgeräte abzugeben. Die getrennte Sammlung und ordnungsgemäße Entsorgung Ihrer Altgeräte trägt zur Erhaltung der natürlichen Ressourcen bei und garantiert eine Wiederverwertung, die die Gesundheit des Menschen und die Umwelt schützt.
Latvian notice Nolietotu iekārtu iznīcināšanas noteikumi lietotājiem Eiropas Savienības privātajās mājsaimniecībās Šāds simbols uz izstrādājuma vai uz tā iesaiņojuma norāda, ka šo izstrādājumu nedrīkst izmest kopā ar citiem sadzīves atkritumiem. Jūs atbildat par to, lai nolietotās iekārtas tiktu nodotas speciāli iekārtotos punktos, kas paredzēti izmantoto elektrisko un elektronisko iekārtu savākšanai otrreizējai pārstrādei.
Slovakian notice Likvidácia vyradených zariadení v domácnostiach v Európskej únii Symbol na výrobku alebo jeho balení označuje, že daný výrobok sa nesmie likvidovať s domovým odpadom. Povinnosťou spotrebiteľa je odovzdať vyradené zariadenie v zbernom mieste, ktoré je určené na recykláciu vyradených elektrických a elektronických zariadení.
Germany noise declaration Schalldruckpegel Lp = 70 dB(A) Am Arbeitsplatz (operator position) Normaler Betrieb (normal operation) Nach ISO 7779:1999 (Typprüfung) Japanese notice Harmonics conformance (Japan) Taiwanese notice Japanese power cord notice Country-specific certifications HP tests electronic products for compliance with country-specific regulatory requirements, as an individual item or as part of an assembly.
NOTE: Components without an individual product certification label are qualified as part of the next higher assembly (for example, enclosure, rack, or tower). Figure 40 Typical enclosure certification label NOTE: The certification symbols on the label depend upon the certification level. For example, the FCC Class A certification symbol is not the same as the FCC Class B certification symbol.
Environmental specifications To ensure optimum product operation, you must maintain the operational environmental specifications listed in Table 29. The ambient temperature (the enclosure air intake or room temperature) is especially critical. Table 29 Environmental operating specifications Ambient temperature: +10 °C to +35 °C (+50 °F to +95 °F) with an average rate of change of 1 °C/hour maximum and a step change of 3 °C or less.
Table 31 Enterprise storage system AC input line voltages Nominal Maximum 57 Hz 60 Hz 63 Hz AC Line Voltage—Japan 180 VAC 202 VAC 220 VAC AC Line Voltage–North America 180 VAC 208 VAC 220 VAC AC Line Voltage–Europe 208 VAC 240 VAC 254 VAC 47 Hz 50 Hz 53 Hz AC Line Voltage–Japan 180 VAC 202 VAC 220 VAC AC Line Voltage–North America 190 VAC 220 VAC 235 VAC AC Line Voltage–North America 200 VAC 230 VAC 244 VAC AC Line Voltage–Europe 208 VAC 240 VAC 254 VAC Minimal Specifica
Table 34 Power specifications Current (A) Voltage Power (W) >Maximum continuous current +5.1 VDC (with a minimum +12.2 VDC load of 0A) 26.0 A 132 W +12.2 VDC (with a minimum +5 VDC load of 4A) 28.0 A 342.0 W 2.0 A 25.0 W +12.5 VDC 499.0 W Total Maximum peak current (simultaneous seek activity) +5.1 VDC 26.0 A 132.0 W +12.2 VDC 43.0 A 524.0 W +12.5 VDC 2.0 A 25.0 W 681.
Power specifications Table 37 and Table 38 define the controller power supply input power requirements and output power specifications. Table 37 Controller power supply AC power requirements Frequency AC Input Voltage Minimum Nominal Maximum Maximum Minimum 180 VAC 202 VAC 220 VAC 47 Hz 50 Hz 57 Hz 60 Hz 208 VAC 208 VAC 240 VAC 254 VAC Table 38 Controller power supply output specifications Minimum Voltage Specification Nominal Maximum 3.30 VDC 3.36 VDC 18 A 59.4W 5.00 VDC 5.25 VDC 5.
Rack specifications Physical specifications WARNING! The weight of the drive enclosure with the elements installed always requires at least two individuals to move. HP recommends using a fork lift or a hand truck to move an enclosure in the shipping container. Table 40 through Table 45 define the dimensions and weights of the 9000-Series and 10000-Series Enterprise Virtual Array racks.
Table 44 10000-Series Enterprise 42U Rack Physical Dimensions Configuration Height in / mm Width in / mm Depth in / mm Max Wt lbs / kg Enterprise 2C6D 78.75 / 2000.0 23.7 / 600 39.3 / 1000 918 / 416 Enterprise 2C12D 78.75 / 2000.0 23.7 / 600 39.3 / 1000 1350 / 612 Enterprise 0C6D 78.75 / 2000.0 23.7 / 600 39.3 / 1000 818 / 371 Enterprise 0C12D 78.75 / 2000.0 23.7 / 600 39.
Table 48 Enterprise Virtual Array AC power specifications Nominal input voltage Specifications 60-Hz Service 202 VAC Voltage Range Power Receptacle Japan 180-220 VAC, 57-63Hz, 32 A, Single Phase 3-wire, 2-pole, IEC 309 208 VAC Voltage Range Power Receptacle North America 180-220 VAC, 57-63Hz, 32 A, Single Phase 3-wire, 2-pole, NEMA L6-30 240 VAC Voltage Range Power Receptacle Europe 208-254 VAC, 57-63 Hz, 32 A, Single Phase 3-wire, 2-pole, IEC 309 50-Hz Service 202 VAC Voltage Range Power Receptacle
Regulatory notices and specifications
B EMU-generated condition reports This section provides a description of the EMU generated condition reports that contain the following information: • Element type (et), a hexadecimal number in the range 01 through FF. • Element number (en), a decimal number in the range 00 through 99 that defines a specific problem. • Error code (ec), a decimal number in the range 00 through 99. • The recommended corrective action.
Correcting errors Correcting an error may require you to perform a specific set of actions. In some cases, the only available corrective action is to replace the element. Table 49 lists the element type codes assigned to the drive enclosure elements. Table 49 Assigned element type codes Code Element 0.1. Disk Drives 0.2. Power Supplies 0.3. Blowers 0.4. Temperature Sensors 0.6 Audible Alarm 0.7. EMU 0.C. Controller OCP LCD1 0.F. Transceivers 1.0. Language1 1.1. Communication Port1 1.2.
• When the drive is Fibre Channel-compatible, the EMU compares the drive link rate with the I/O module link rate, the loop link rate. If the EMU cannot determine the drive link rate, the EMU activates the drive bypass function for one minute. During this time the EMU continually checks the drive to determine the link rate. • If the EMU determines the drive cannot operate at the Fibre Channel link rate set by the I/O module, the drive bypass function ends and the drive is placed on the loop.
0.1.en.04 CRITICAL condition—Loop a drive link rate incorrect The drive is capable of operating at the loop link rate but is running at a different rate. For example, the drive is operating at 1 Gbps, and the loop is operating at 2 Gbps. Only when the drive is operating at the Fibre Channel link rate established by the I/O module can this drive transfer data. This error remains active until the problem is corrected. Complete the following procedure to correct this problem: 1.
1 2 CXO7952A Figure 41 Power supply element numbering The following sections define the power supply condition reports. 0.2.en.01 NONCRITICAL Condition—Power supply AC input missing The loss of the AC input to a power supply makes the remaining power supply a single point of failure. This condition report remains active until AC power is applied to the power supply. Complete the following procedure to correct this problem: 1. Record all six characters of the condition report. 2.
2. Ensure that the blower on the power supply is functioning properly. If not, correct the blower condition and wait one minute. 3. Contact your authorized service representative. Blower conditions The format of a blower condition report is 0.3.en.ec, where: • 0.3. is the blower element type number • en. is the two-character blower element number • ec is the error code As shown in Figure 42, blower 1 is in location 1 and blower 2 is in location 2.
0.3.en.03 UNRECOVERABLE condition—Blower failure A blower has stopped. The operational blower now operates at high speed and is a single point of failure. This condition report remains active until the problem is corrected. To correct this problem, record all six characters of the condition report, then contact your authorized service representative. 0.3.en.
Refer to Table 50 to determine the location of each temperature sensor. Table 50 Temperature sensor element numbering Sensor Sensor location Sensor Sensor location 01. Power Supply 1 Exhaust 10. Drive Bay 7 02. Power Supply 2 Exhaust 11. Drive Bay 8 03. EMU 12. Drive Bay 9 04. Drive Bay 1 13. Drive Bay 10 05. Drive Bay 2 14. Drive Bay 11 06. Drive Bay 3 15. Drive Bay 12 07. Drive Bay 4 16. Drive Bay 13 08. Drive Bay 5 17. Drive Bay 14 09.
5. Verify that the ambient temperature range is +10 °C to +35 °C (+50 °F to +95 °F). Adjust as necessary. 6. Observe the EMU to ensure the error is corrected. 7. If unable to correct the problem, contact your authorized service representative. 0.4.en.03 NONCRITICAL condition—Low temperature This condition report indicates that an element temperature is approaching, but has not reached, the low temperature CRITICAL threshold. Continued operation under these conditions may result in a CRITICAL condition.
4. If steps 1, 2 or 3 did not reveal a problem, use HP Command View EVA to request the HSV210 controller to shut down the drive enclosure. Completing this action will halt the drive enclosure data transfers. 5. Contact your authorized service representative and request assistance. EMU conditions The format of an EMU condition report is 0.7.01.ec, where: • 0.7. is the EMU element type number • 01.
4. If resetting the EMU did not correct the problem, replace the EMU. 5. If unable to correct the problem, contact your HP authorized service representative. 0.7.01.03 UNRECOVERABLE Condition—Power supply shutdown This message only appears in HP Command View EVA to report a power supply has already shut down. This message can be the result of the controller shutdown command or an EMU or power supply initiated power shutdown. This message cannot be displayed until after restoration of power.
Complete the following procedure to correct this problem: 1. Record all six characters of the condition report. 2. Reset the EMU. 3. Observe the EMU to ensure the error is corrected. 4. If resetting the enclosure did not correct the problem, contact your HP authorized service representative. 0.7.01.12 NONCRITICAL condition—EMU cannot read NVRAM data The EMU is unable to read data from the NVRAM. This condition report remains active until the problem is corrected.
0.7.01.15 UNRECOVERABLE condition—EMU hardware failure The EMU has detected an internal hardware problem. This condition report remains active until the problem is corrected. Complete the following procedure to correct this problem: 1. Record all six characters of the condition report. 2. Reset the EMU. 3. Observe the EMU to ensure the error does not recur within the first minute. 4. If the error does recur, contact your HP authorized service representative.
0.7.01.19 UNRECOVERABLE condition—EMU ESI driver failure The EMU has detected an internal hardware problem. This condition report remains active until the problem is corrected. Complete the following procedure to correct this problem: 1. Record all six characters of the condition report. 2. Reset the EMU. 3. Observe the EMU to ensure the error does not recur within the first minute. 4. If the error does recur, contact your HP authorized service representative.
Complete the following procedure to correct this problem: 1. Record all six characters of the condition report. 2. Check all the transceivers and cables to ensure they are properly connected. 3. Check all the transceivers on the loop to ensure they are compatible with the I/O module. 4. If the problem persists, contact your HP authorized service representative. 0.F.en.04 CRITICAL condition—Transceiver removed The EMU detects that a transceiver has been removed.
1.2.en.01 NONCRITICAL condition—High voltage This condition report indicates that an element voltage is approaching, but has not reached, the high voltage CRITICAL threshold. Continued operation under these conditions may result in a CRITICAL condition. This condition report remains active until the problem is corrected. To correct this problem, record all six characters of the condition report, then contact your HP authorized service representative. 1.2.en.
• 01. is the two-character backplane element number • ec is the error code The only corrective action available for this error is to replace the drive enclosure. 8.2.01.10 NONCRITICAL condition—Backplane NVRAM read An invalid NVRAM read occurred and an automatic recovery process has begun. This condition report is active for 15 seconds. If the automatic recovery process does not correct the problem, record all six characters of the condition report, then contact your HP authorized service representative.
8.7.en.01 CRITICAL condition—I/O module unsupported The I/O module Fibre Channel link speed is not supported by the backplane. This error prevents the controller from establishing a link with enclosure drives and eliminates the enclosure dual-loop capability. This condition report remains active until the problem is corrected. To correct this problem, record all six characters of the condition report, then contact your HP authorized service representative. 8.7.en.
Host conditions The EMU has the capability of displaying host controller defined condition reports on the EMU alphanumeric display. The format of a host condition report is F.F.en.ec, where: • F.F. is the host element type number • en.
EMU-generated condition reports
C Controller fault management This appendix describes how the controller displays events and termination event information. Termination event information is displayed on the LCD. HP Command View EVA enables you to view controller events. This appendix also discusses how to identify and correct problems. Once you create a storage system, an error condition message has priority over other controller displays. HP Command View EVA provides detailed descriptions of the storage system error conditions, or faults.
NOTE: The major differences between the Event Display and the Termination Event display are: • The Event display includes an EIP type field; it does not include a Code Flag field. • The Event display includes a Corrective Action Code (CAC) field. • The Termination Event display includes a Code Flag field; it does not include the EIP Type field.
1. When the Fault Management display is active (flashing), press to select the Detail View menu. The LTEA selection menu is active (LTEA 0 is displayed). 2. Press or 3. Press to observe data about the selected error. to increment to a specific error. Interpreting fault management information Each version of HP Command View EVA includes an ASCII text file that defines all the codes that the authorized service representative can view either on the GUI or on the OCP.
Controller fault management
Glossary This glossary defines terms used in this guide or related to this product and is not a comprehensive glossary of computer terms. μm A symbol for micrometer; one millionth of a meter. For example, 50 μm is equivalent to 0.000050 m. 3U A unit of measurement representing three “U” spaces. “U” spacing is used to designate panel or enclosure heights. Three “U” spaces is equivalent to 5.25 inches (133 mm). See also rack-mounting unit.
array controller See controller. asynchronous Events scheduled as the result of a signal requesting the event or that which is without any specified time relation. audible alarm The Environmental Monitoring Unit (EMU) alarm that sounds when there is a drive enclosure element condition report. The audible alarm can be muted or disabled. backplane An electronic printed circuit board that distributes data, control, power, and other signals to element connectors.
cache battery indicator 1. carrier A drive-enclosure-compatible assembly containing a disk drive or other storage devices. client A software program that uses the services of another software program. The HP Command View EVA client is a standard internet browser. clone See Virtual Disk Copy. communication logical unit number (LUN) See console LUN. condition report A three-element code generated by the EMU in the form where e.t. is the element type (a hexadecimal number), en.
data entry mode The state in which controller information can be displayed or controller configuration data can be entered. On the Enterprise Storage System, the controller mode is active when the LCD on the HSV Controller OCP is Flashing. default disk group The first disk group created at the time the system in initialized. The default disk group can contain the entire set of physical disks in the array or just a few of the disks. See also disk group.
dual power supply configuration See redundant power configuration. dynamic capacity expansion A storage system feature that provides the ability to increase the size of an existing virtual disk. Before using this feature, you must ensure that your operating system supports capacity expansion of a virtual disk (or LUN). EIA Electronic Industries Alliance. A standards organization specializing in the electrical and functional characteristics of interface equipment. EIP Event Information Packet.
Enclosure Services Interface See ESI. Enclosure Services Processor See ESP. Enterprise Virtual Array The Enterprise Virtual Array is a product that consists of one or more storage systems. Each storage system consists of a pair of HSV controllers and the disk drives they manage. A storage system within the Enterprise Virtual Array can be formally referred to as an Enterprise storage system, or generically referred to as the storage system.
Fault Management Code See FMC. Fibre Channel drive enclosure Fibre Channel Arbitrated Loop. The American National Standards Institute’s (ANSI) document that specifies arbitrated loop topology operation. FC HBA Fibre Channel Host Bus Adapter. An interchangeable term for Fibre Channel adapter. See also FCA. FCA Fibre Channel Adapter. An adapter used to connect the host server to the fabric. Also called a Host Bus Adapter (HBA) or a Fibre Channel Host Bus Adapter (FC HBA). See also FC HBA.
Gb Gigabit. A measurement of the rate at which the transfer of bits of data occurs. Sometimes referred to as Gbps. Nominally, a Gb is a transfer rate of 1,000,000,000 (109) bits per second. For Fibre Channel transceivers or FC loops the Gb transfer rates are: • 1 Gb is a transmission rate of 1,062,500,000 bits per second. • 2 Gb is a transmission rate of 2,125,000,000 bits per second. GB Gigabyte. A unit of measurement defining either: • A data transfer rate.
I/O module Input/Output module. The enclosure element that is the Fibre Channel drive enclosure interface to the host or controller. I/O modules are bus speed specific, either 1 Gb or 2 Gb. IDX A 2-digit decimal number portion of the HSV controller termination code display that defines one of 32 locations in the Termination Code array that contains information about a specific event. See also param and TC.
logon Also called login, it is a procedure whereby a user or network connection is identified as being an authorized network user or participant. loop See arbitrated loop. loop ID Seven-bit values numbered contiguously from 0 to 126 decimal and represent the 127 valid AL_PA values on a loop (not all 256 hexadecimal values are allowed as AL_PA values per Fibre Channel). loop pair A Fibre Channel attachment between a controller and physical disk drives.
multi-mode fiber A fiber optic cable with a diameter large enough (50 microns or more) to allow multiple streams of light to travel different paths from the transmitter to the receiver. This transmission mode enables bidirectional transmissions. Network Storage Controller See NSC. NONCRITICAL Condition A drive enclosure EMU condition report that occurs when one or more elements inside the enclosure have failed or are operating outside of their specifications.
PDU Power Distribution Unit. The rack device that distributes conditioned AC or DC power within a rack. petabyte A unit of storage capacity that is the equivalent of 250, 1,125,899,906,842,624 bytes or 1,024 terabytes. physical disk A disk drive mounted in a drive enclosure that communicates with a controller pair through the device-side Fibre Channel loops. A physical disk is hardware with embedded software, as opposed to a virtual disk, which is constructed by the controllers.
read ahead caching A cache management method used to decrease the subsystem response time to a read request by allowing the controller to satisfy the request from the cache memory rather than from the disk drives. reconstruction The process of regenerating the contents of a failed member data. The reconstruction process writes the data to a spare set disk and incorporates the spare set disk into the mirrorset, striped mirrorset or RAID set from which the failed member came. redundancy 1.
small computer system interface See SCSI. Snapclone A virtual disk that can be manipulated while the data is being copied. Only an Active member of a virtual disk family can be snapcloned. The Snapclone, like a snapshot, reflects the contents of the source virtual disk at a particular point in time. Unlike the snapshot, the Snapclone is an actual clone of the source virtual disk and immediately becomes an independent Active member of its own virtual disk family.
may be incapable of recovering or bypassing the failure and will require repairs to correct the condition. This is the highest level condition and has precedence over all other errors and requires immediate corrective action. unwritten cached data Also called unflushed data. See also dirty data. UPS Uninterruptible Power Supply. A battery-operated power supply guaranteed to provide power to an electrical device in the event of an unexpected interruption to the primary power supply.
write back caching A controller process that notifies the host that the write operation is complete when the data is written to the cache. This occurs before transferring the data to the disk. Write back caching improves response time since the write operation completes as soon as the data reaches the cache. As soon as possible after caching the data, the controller then writes the data to the disk drives.
Index Symbols +5.
condition reporting backplane, 130 current sensors, 129 drives, 116 element types, 116 EMU, 124 hosts, 133 I/O modules, 131 power supplies, 118 transceivers, 128 voltage sensor, 129 condition reporting temperature, 121 conditions, EMU detection of, 52 configuration physical layout, 19 connectors power IEC 309 receptacle, 76 power NEMA L6-30R, 76 protecting, 42 controller cabling, 75 connectors, 75 defined, 19, 20 initial setup, 26 status indicators, 69 controller enclosure cache battery, 75 power supply/blo
EMU controls, 51 alphanumeric display, 53 conditions, 124 CRITICAL conditions, 124 displaying status, 51 INFORMATION conditions, 125, 127 locating, 20 NONCRITICAL conditions, 125, 125, 126, 126 resetting, 124 status indicators, 53 UNRECOVERABLE conditions, 124, 126, 127 EMU indicator displays, 54 EMU monitoring functions , 53 En description, 58 enabling the audible alarm, 56 enclosure address bus defined, 58 detecting errors with, 126 enclosure certification label, 106 enclosure functions, 53 enclosure numb
hot swap, 18 HP Subscriber’s choice web site, 13 HSV Controllers defined, 19, 20 initial setup, 26 HSV controllers HSV101/111, 20 HSV101/111, 20 HSV110 controller OCP shutting down the controller, 72 shutdown, 72 I I/O modules bidirectional, 45 CRITICAL conditions, 132 monitored functions, 53 NONCRITICAL conditions, 132, 132, 132 I/O modules CRITICAL conditions, 132 element numbering, 131 IDX code display, 136 indicators battery status, 69 EMU displays, 54 push buttons, 55, 70 INFORMATION conditions audib
O OCP fault management displays, 136 using, 26 OCP push button icons, 74 online help system, 18 OpenView Storage Management Server, 18, 28 P page-level help, 18 parameter code, 136 parameter code number, 136 password clearing, 74 entering, 73 changing, 73, 73 clearing, 73 entering, 28 removing, 73 PDUs, 75 physical configuration, 19 physical specifications enclosures, 106 PIC, 71 port indicators, 65 POST, 65 power connectors IEC 309 receptacle, 76 NEMA L6-30R, 76 POWER OFF LCD, 72 power specifications AC
SFP, 67 shipping specifications, 107, 112 relative humidity, 112 short circuit, 50 shutdown controllers, 72 shutdown failure, 127 shutdown system, 70 shutting down the system, 72 restarting, 73 signals, diagnostic, 50 slots See enclosures, bays Software Component ID Codes See SWCID Software Identification Code See SWCID software version display, 71, 71 specifications disk drive, MTBF, 107, 112 enclosure, 109 heat dissipation, 107 physical, 106, 109 power, 107, 110 speed conditions, blower, 120, 120, 121 sta
W warnings lasers, radiation, 99 web sites HP Subscriber’s choice, 13 WEEE recycling notices, 100 WWN labels, 27 WWN, backplane, 131 WWN, blank, 131 Enterprise Virtual Array 3000/5000 user guide 161