HP StorageWorks D2600/D2700 Disk Enclosure User Guide This guide describes the D2600/D2700 6Gb SAS disk enclosure. Installation, cabling, configuration, and troubleshooting procedures are included.
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Contents 1 Hardware ......................................................................................... 7 Overview ................................................................................................................................... 7 Small Form Factor disk enclosure chassis ........................................................................................ 8 Front view ..................................................................................................................
System and performance expectations ............................................................................ Striping methods .......................................................................................................... RAID levels ................................................................................................................. Disk drive sizes and types ............................................................................................. Spare disks ................
Effects of a disk drive failure ................................................................................................ Compromised fault tolerance ............................................................................................... Factors to consider before replacing disk drives ...................................................................... Automatic data recovery (rebuild) .........................................................................................
Danish notice .................................................................................................................... Dutch notice ...................................................................................................................... Estonian notice .................................................................................................................. Finnish notice .......................................................................................................
1 Hardware Overview 6Gb SAS disk enclosures are available in two models: • Small Form Factor (SFF): Supports 25 SFF (2.5 inch) disk drives • Large Form Factor (LFF): Supports 12 LFF (3.5 inch) disk drives Small Form Factor disk enclosure Large Form Factor disk enclosure NOTE: Depending on your disk enclosure model and controller installation environment, one or more disk enclosures can be cascaded from the disk enclosure that is connected to the controller.
Small Form Factor disk enclosure chassis Front view 1. Rack-mounting thumbscrews 3. UID push button and LED 2. Disk drive in bay 9 4. Enclosure status LEDs Drive bay numbering Disk drives mount in bays on the front of the enclosure. Bays are numbered sequentially from top to bottom and left to right. Bay numbers are indicated on the left side of each drive bay. Rear view 1. Power supply 1 4. I/O module A 7. UID push button and LED 2. Power supply 2 5. I/O module B 8. Enclosure status LEDs 3.
Large Form Factor disk enclosure chassis Front view 1. Rack-mounting thumbscrews 3. UID push button and LED 2. Disk drive in bay 6 4. Enclosure status LEDs Drive bay numbering Disk drives mount in bays on the front of the enclosure. Bays are numbered sequentially from top to bottom and left to right. A drive-bay legend is included on the left bezel. Rear view 1. Power supply 1 4. I/O module A 7. UID push button and LED 2. Power supply 2 5. I/O module B 8. Enclosure status LEDs 3. Fan 1 6.
Disk drives A variety of disk drive models are supported for use, including dual-ported and single-ported models. For more information, see the QuickSpecs for the disk enclosure, available on the D2000 website: http://www.hp.com/go/D2000. Disk drives are hot-pluggable. Disk drive LEDs Two LEDs indicate drive status. NOTE: The following image shows a Small Form Factor (SFF) disk drive. LED patterns are the same for SFF and LFF disk drives.
Front status and UID module The front status and UID module includes status LEDs and a unit identification (UID) button. Front UID module LEDs LED 1. Health 2. Fault 3.
Unit identification (UID) button The unit identification (UID) button helps locate an enclosure and its components. When the UID button is activated, the UID on the front and rear of the enclosure are illuminated. NOTE: A remote session from the management utility can also illuminate the UID. • To turn on the UID light, press the UID button. The UID light on the front and the rear of the enclosure will illuminate solid blue. (The UID on cascaded storage enclosures are not illuminated.
Fan module Fan modules provide cooling necessary to maintain proper operating temperature within the controller enclosure. If one fan fails, the remaining fan is capable of cooling the enclosure. (Replace any failed component as soon as possible.) NOTE: If one of the two fan modules fail, it can be hot-replaced. Fan module LED One bi-color LED provides module status information.
I/O module The I/O module provides the interface between the disk enclosure and the host. Each I/O module has two ports that can transmit and receive data for bidirectional operation. Small Form Factor I/O module Large Form Factor I/O module 1. Manufacturing diagnostic port 4. Double 7–segment display 2. SAS Port 1 5. I/O module LEDs 3. SAS Port 2 I/O module LEDs LEDs on the I/O module provide status information about each I/O port and the entire module.
LED 1. SAS Port Link 2. SAS Port Error 3. 7–segment display 4. UID 5. Health 6.
Rear power and UID module The rear power and UID module includes status LEDs, a unit identification (UID) button, and the power on/standby button. Rear power and UID module LEDs LED LED icon 1. UID 2. Health 3.
Unit identification (UID) button The unit identification (UID) button helps locate an enclosure and its components. When the UID button is activated, the UID on the front and rear of the enclosure are illuminated. NOTE: A remote session from the management utility can also illuminate the UID. • To turn on the UID light, press the UID button. The UID light on the front and the rear of the enclosure will illuminate solid blue. (The UID on cascaded storage enclosures are not illuminated.
Hardware
2 Technical specifications Physical specifications Dimensions Height (2U) 8.8 cm (3.47 in) Width 45.0 cm (17.99 in) Depth 56.7 cm (22.3 in) No disk drives: 17.2 kg (38 lb) Weight Fully populated with SFF disk drives: 24.9 kg (54.90 lb) Fully populated with LFF disk drives: 27.2 kg (59.
Technical specifications
3 Deployment types The following types of deployments are supported: • Single domain In a single domain deployment, one path exists from the disk enclosure to the host. In a single domain deployment, only one I/O module in the disk enclosure is used • Dual domain In a dual domain deployment, two paths exist from the disk enclosure to the host. In a dual domain deployment, both I/O modules in the disk enclosure are used.
Deployment types
4 Installation Installation overview Installation steps include: 1. 2. 3. 4. 5. 6. Locating Required items, page 23 Completing Preliminary tasks, page 24 Preparing the site, page 29 Racking the disk enclosure, page 30 Installing disk drives in the enclosure, page 32 Connecting SAS cables and power cords, page 35 7. 8.
Preliminary tasks Planning tasks include: • • • • • • Determining who will install and configure the disk enclosure, page 24 Confirming support for your hardware and software components, page 24 Signing up to automatically receive advisories, notices, and other messages, page 25 Confirming warranty support and finding out about related services, page 25 Gathering and recording information, page 25 Planning the storage configuration, page 25 Determining who will install and configure the disk enclosure Sto
Signing up to automatically receive advisories, notices, and other messages The Subscriber's Choice website includes options to register for and automatically receive, by e-mail, personalized product tips, update information, driver- and support-related advisories, and other notices for this and other HP devices. Although optional, HP recommends registering all of your HP products with Subscriber's Choice. For more information, see the Subscriber's Choice website: http:// www.hp.com/go/e-updates.
Storage planning considerations include: • • • • • • System and performance expectations Striping methods RAID levels Disk drive sizes and types Spare drives Array sizing (capacity) NOTE: For the minimum supported configuration, and other configuration information, see the QuickSpecs for the disk enclosure.
Summary Best practices Data redundancy RAID method RAID0 RAID0 is optimized for I/O speed and efficient use of physical disk capacity, but provides no data redundancy. IMPORTANT: Do not use RAID0 for LUNs if fault tolerance is required. Consider RAID0 only for noncritical storage. RAID0 LUNs provide the best performance for applications that use random I/O. None Striping RAID1 is optimized for data redundancy and I/O speed, but uses the most physical disk space.
fails at this time, the array becomes inaccessible and information stored there must be restored from backup. After the rebuild of the data onto the spare is completed, when a replacement drive is inserted to replace the failed drive, the system will automatically transfer the data from the spare onto the replacement drive and return the spare to an available-spare state.
Preparing the site Preparing your site includes: • Providing adequate structural support Calculate the total weight of your equipment and verify that your site can support the weight. For HP ProLiant server environments, consider using Rack Builder, a software tool that provides a simplified method to planning and configuring racks and rack-mountable products. Rack Builder is available on the Options tab of the ProLiant Home page of the HP servers website: http:// www.hp.com/country/us/eng/prodserv/servers.
Racking the disk enclosure The disk enclosure can be installed into most standard server racks. To verify that your rack is supported for use with the disk enclosure, see the QuickSpecs for the disk enclosure, available on the D2000 website: http://www.hp.com/go/D2000. CAUTION: Install disk drives in the enclosures only after mounting the enclosures in the rack. • A disk enclosure populated with disk drives is too heavy to lift safely.
Racking procedures 1. 2. Position left and right rack rails at the desired 'U' position in the rack, adjusting the rails to fit the rack, as needed (1). Secure rack rails to the front and back rack columns using screws. Make sure that the shoulders of the screws fit inside the square or round holes of the rack (2). NOTE: If installing rails in a square hole rack, use larger-sized shoulder screws and pins for mounting.
Installing disk drives in the enclosure Disk drive options Depending on the enclosure model, 12 or 25 disk drives can be installed in the enclosure. A variety of disk drive models are supported for use, including dual-ported and single-ported models. For more information about supported disk drives, see the QuickSpecs for the disk enclosure, available on the D2000 website: http://www.hp.com/go/D2000. Disk drive guidelines CAUTION: • Follow industry-standard practices when handling disk drives.
2. Unlatch and swing out the latch handle on the drive. Then, slide the drive into the bay (1), pressing firmly on the drive to seat it. Close the latch handle (2), pressing firmly until it locks in place. IMPORTANT: When a drive is inserted in an operational enclosure, the drive LEDs flash to indicate that the drive is seated properly and receiving power. 3. Determine the status of the hard drive (see Drive status reporting).
Installing SAS controllers or controller enclosures When installing controllers or controller enclosures, be sure to do the following. • Record information about the controller or controller enclosure that will connect to the disk enclosure. • Depending on your deployment, do one of the following: • For server connect deployments, install one or more Smart Array controllers in the server that will access the disk enclosure.
Connecting SAS cables and power cords Overview Connecting cables includes the following steps: 1. 2. 3. 4. Reading the Cabling best practices, page 35. Connecting SAS cables to the server or controller enclosure, page 36. Connecting SAS cables to cascaded disk enclosures, page 37. Connecting power cords, page 38. IMPORTANT: The following illustrations demonstrate connecting a disk enclosure to a server with an installed controller.
Connecting SAS cables to the server or controller enclosure To connect the first disk enclosure to the server or controller enclosure, use a standard mini-SAS cable. IMPORTANT: When connecting this disk enclosure in a single-domain environment, only the top I/O module (I/O module A) in the disk enclosure is supported for use. Observe the following guidelines: • Only use supported SAS cables with mini-SAS connectors.
Connecting SAS cables to cascaded disk enclosures To cascade additional disk enclosures from the disk enclosure that is connected to the server or controller enclosure, use standard mini-SAS cables. As additional disk enclosures are connected to the first disk enclosure, they are assigned a box number. The assigned box number is displayed on the 7-segment display on the rear of the disk enclosure.
Connecting power cords When connecting power cords, use the cords shipped with the disk enclosure. The power cord should be approved for use in your country. The power cord must be rated for the product and for the voltage and current marked on the electrical ratings label of the product. The voltage and current rating for the cord should be greater than the voltage and current rating marked on the product. In addition, the diameter of the wire must be a minimum of 1.
Powering on the disk enclosure After disk enclosures are physically installed and cabled, power on all devices and verify that they are operating properly. Power on best practices Observe the following best practices before powering on the enclosure for the first time: • Complete the server, controller, or controller enclosure installation. For more information, see the server, controller, or controller enclosure user documents. • Install the disk enclosures.
Verifying the operating status of the disk enclosures To verify that the disk enclosures and disk drives are operating properly, view the enclosure and disk drive LEDs and compare them with the patterns described in the following table. If LED patterns are not as expected, check cable connections between the devices, check the availability of your power source, review the installation procedures, and remove and reinsert the module. For more information about disk enclosure LEDs, see Chapter 1 on page 7.
5 Configuration Configuration overview Regardless of the installation environment, operating system, or software tool used to configure the disk enclosure, the following tasks must be completed: • Updating controller or controller enclosure firmware or drivers. Instructions are included with the controller or controller enclosure. • Updating disk enclosure firmware. Instructions are included with the firmware. For more information, see “Updating disk enclosure firmware” on page 44.
Configuration
6 Operation and management Included topics: • Powering on disk enclosures, page 43 • Powering off disk enclosures, page 44 • Updating disk enclosure firmware, page 44 Powering on disk enclosures IMPORTANT: Always power on disk enclosures before controller enclosures and servers. This ensures that servers, during the discovery process, identify the enclosures and installed disk drives as operational devices. 1. 2. Apply power to each UPS. For more information, see the UPS documentation.
Powering off disk enclosures IMPORTANT: Always power off disk enclosures after controller enclosures and servers. IMPORTANT: When installing a hot-pluggable component, such as a disk drive, it is not necessary to power down the enclosure. To power off a disk enclosure: 1. Power off any attached servers. For more information, see the server documentation. 2. Power off the controller enclosure (if included in the configuration.) For more information, see the controller enclosure documentation. 3.
7 Cabling examples The following basic cabling examples are included: • • • • • Large Form Factor D2600 disk enclosures — maximum capacity configuration Small Form Factor D2700 disk enclosures — maximum capacity configuration Dual domain example — best fault tolerance cabling Dual domain — best performance cabling Dual domain—alternative cabling IMPORTANT: The following illustrations demonstrate connecting disk enclosures to a generic host.
Large Form Factor D2600 disk enclosures — maximum capacity configuration This example illustrates cabling for a single-domain configuration. In this configuration, note the following: • P1 on the disk enclosure I/O module is treated as the SAS “in” port. • P2 on the disk enclosure I/O module is treated as the SAS “out” port. • In single-domain configurations, one cable path is created between the host, the primary disk enclosure, and additional cascaded disk enclosures.
Small Form Factor D2700 disk enclosures — maximum capacity configuration This example illustrates cabling for a single-domain configuration. In this configuration, note the following: • P1 on the disk enclosure I/O module is treated as the SAS “in” port. • P2 on the disk enclosure I/O module is treated as the SAS “out” port. • In single-domain configurations, one cable path is created between the host, the primary disk enclosure, and additional cascaded disk enclosures.
Dual domain example — best fault tolerance cabling This example illustrates cabling for a dual-domain configuration in a pattern that offers best possible fault tolerance. In this configuration, note the following: • A multi-port, dual-domain controller in the host and dual-port disk drives in the disk enclosure are required for dual-domain deployments.
Dual domain — best performance cabling This example illustrates cabling for a dual-domain configuration in a pattern that offers best possible performance. In this configuration, note the following: • A multi-port, dual-domain controller in the host and dual-port disk drives in the disk enclosure are required for dual-domain deployments. • Cables from each I/O module in the disk enclosure to the server or controller enclosure and to additional cascaded disk enclosures provide dual-domain connectivity.
Dual domain—alternative cabling This example illustrates cabling for a dual-domain configuration in a pattern that offers a balance of fault tolerance and performance. In this configuration, note the following: • A multi-port, dual-domain controller in the host and dual-port disk drives in the disk enclosure are required for dual-domain deployments.
8 Troubleshooting If the enclosure does not initialize IMPORTANT: After a power failure, the system automatically returns to the last-powered state (On or Off) when A/C power is restored. 1. Ensure that the power on/standby button was pressed firmly and held for approximately three seconds. 2. Verify that the power on/standby button LED is green. 3. Verify that the power source is working: a. Verify that the power supplies are working by viewing the power supply LEDs.
Is the enclosure rear fault LED amber? Answers Possible Reasons Actions No Functioning properly. No action required Yes Rear power and UID module might not be inserted properly, might have a damaged connector, or might have failed. • Be sure that the rear power and UID module is undamaged and is fully seated. • Contact an authorized service provider for assistance. Is the power on/standby button LED amber? Answer Possible Reasons Possible Solutions No System functioning properly.
Is the I/O module fault LED amber? Answer Possible Reasons Possible Solutions No Functioning properly. No action required. Yes • The I/O module is locked. • Make sure that the I/O module is seated properly by pressing the I/O module firmly into its bay after the handle has clicked in place. • The I/O module has failed. • Other fault condition exists. CAUTION: Never remove an I/O module from the chassis while the status LED is green. Removing an active I/O module can result in data loss.
Recognizing disk drive failure In an HP enclosure, a steadily glowing fault LED indicates that a disk drive has failed. Other indications of failed disk drives are as follows: • ACU represents failed drives with a distinctive icon. • HP SIM can detect failed drives remotely across a network. (For more information about HP SIM, see the documentation on the Management CD.) • ADU lists all failed drives.
• When RAID6 with ADG is used, two drives can fail simultaneously (and be replaced simultaneously) without data loss. • If the offline drive is a spare, the degraded drive can be replaced. • Do not remove a second drive from an array until the first failed or missing drive has been replaced and the rebuild process is complete. (The rebuild is complete when the Online LED on the front of the drive stops blinking.
situation occurs, restart the server. The system might temporarily become operational long enough to allow recovery of unsaved data. In any case, locate the faulty drive, replace it, and restore data from backup. Handling disk drive failures If the controller was configured with hardware fault tolerance, complete the following steps after a disk drive failure: 1. Determine which physical drive failed. On hot-plug drives, an amber drive failure LED illuminates. 2.
9 Replacement procedures Customer self repair (CSR) Information in “Exploded view” on page 59 identifies hardware components that are customer replaceable. Using WEBES, ISEE or other diagnostic tools, a support specialist will work with you to diagnose and assess whether a replacement component is required to address a system problem. The specialist will also help you determine whether you can perform the replacement.
Identifying the spare part Parts have a nine-character spare part number on their label. For some spare parts, the part number might be available in the management software utility. Alternatively, the HP call center will assist in identifying the correct spare part number. Replaceable parts This product contains the replaceable parts illustrated in “Exploded view” on page 59. Parts that are available for customer self repair (CSR) are indicated as follows: • Mandatory CSR where geography permits.
• Placing removed cables on the floor or other surfaces, where they might be walked on or otherwise compressed. Replacement instructions Printed instructions are shipped with the replacement part. Instructions for all replaceable components are also posted to the HP website: http://www.hp.com/support/manuals.
Description CSR status 1. Disk drive Mandatory 2. Voltage Regulator Module (VRM) Mandatory 3. Front Unit ID Mandatory 4. Power supply Mandatory 5. I/O module Mandatory 6. Backplane Mandatory 7. Fan module Mandatory 8. Fan module interconnect board Mandatory 9. Drive cage 10. Rear power UID module Not a CSR part Mandatory To order a replacement part, contact an HP-authorized service provider or see the HP Parts Store online: http://www.hp.
10 Support and other resources Contacting HP Before you contact HP Be sure to have the following information available before you call or contact HP: • Technical support registration number (if applicable) • Product serial number • Product model name and number • • • • • Product identification number Applicable error message Add-on boards or hardware Third-party hardware or software Operating system type and revision level HP contact information For the name of the nearest HP authorized reseller: • See th
Documentation feedback HP welcomes your feedback. To make comments and suggestions about product documentation, please send a message to storagedocsFeedback@hp.com. All submissions become the property of HP. Related information Websites • HP: http://www.hp.com • HP storage: http://www.hp.com/go/storage • HP support: http://www.hp.com/support • HP manuals: http://www.hp.com/support/manuals • HP downloads: http://www.hp.
CAUTION: Indicates that failure to follow directions could result in damage to equipment or data. IMPORTANT: Provides clarifying information or specific instructions. NOTE: Provides additional information. TIP: Provides helpful hints and shortcuts. Customer self repair HP customer self repair (CSR) programs allow you to repair your StorageWorks product. If a CSR part needs replacing, HP ships the part directly to you so that you can install it at your convenience. Some parts do not qualify for CSR.
Support and other resources
11 Regulatory compliance notices This section contains regulatory notices for the HP StorageWorks D2600/2700 6Gb SAS disk enclosures. Regulatory compliance identification numbers For the purpose of regulatory compliance certifications and identification, this product has been assigned a unique regulatory model number. The regulatory model number can be found on the product nameplate label, along with all required approval markings and information.
Modifications The FCC requires the user to be notified that any changes or modifications made to this device that are not expressly approved by Hewlett-Packard Company might void the user's authority to operate the equipment. Cables When provided, connections to this device must be made with shielded cables with metallic RFI/EMI connector hoods in order to maintain compliance with FCC Rules and Regulations.
Japanese power cord statement Korean notices Class A equipment Taiwanese notices BSMI Class A notice Chinese notice Recycling notices English notice D2600/D2700 Disk Enclosure User Guide 67
Bulgarian notice Czech notice Danish notice Dutch notice 68 Regulatory compliance notices
Estonian notice Finnish notice French notice German notice D2600/D2700 Disk Enclosure User Guide 69
Greek notice Hungarian notice Italian notice Latvian notice 70 Regulatory compliance notices
Lithuanian notice Polish notice Portuguese notice Romanian notice D2600/D2700 Disk Enclosure User Guide 71
Slovak notice Spanish notice Swedish notice Turkish notice Türkiye Cumhuriyeti: EEE Yönetmeliğine Uygundur 72 Regulatory compliance notices
Index B best practices cabling, 35 power sources, 38 powering on, 39 racking, 30 C cables best practices, 35 cable management considerations, 35 connecting cascaded enclosures, 37 connecting power cords, 38 connecting to the controller, 36 SAS, 17, 35 cabling example dual-domain, 48, 49, 50 single-domain, 46, 47 cabling guidelines, 37 Canadian notice, 66 cascaded disk enclosures, 37 Chinese notices, 67 clearance space, 29 components, 7 disk drive blanks, 10 disk drives, 10 fan, 13 front status and UID, 11
document revision history, 2 documentation conventions, 62 providing feedback, 62 dual domain example cabling, 48, 49, 50 E environmental requirements, 29 European Union notice, 66 F fan module defined, 13 LEDs, 13 Federal Communications Commission notice, 65 front status and UID module defined, 11 LEDs, 11 G guidelines cabling, 37 H hard drive installing, 32 options, 32 help obtaining, 24, 61 HP Subscriber's Choice for Business, 25 technical support, 61 I I/O module defined, 14 LEDs, 14 installation a
preparing the controller for disk enclosure, 34 preparing the server for disk enclosure, 34 R Rack Builder website, 29 rack rails converting for round-hole racks, 31 rack stability warning, 63 racking best practices, 30 procedures, 31 rear power and UID module defined, 16 LEDs, 16 redundant power cables, 38 regulatory compliance Canadian notice, 66 Chinese notices, 67 European Union notice, 66 identification numbers, 65 Japanese notices, 66 Korean notices, 67 Taiwanese notices, 67 revision table, 2 S SAS