Preface Fujitsu would like to thank you for purchasing our ETERNUS DX60/DX80/DX90 Disk storage system. The ETERNUS DX60/DX80/DX90 Disk storage system is designed to be connected to a Fujitsu (PRIMEQUEST, PRIMERGY, or SPARC Enterprise) or other server. This guide introduces the user to the ETERNUS DX60/DX80/DX90 Disk storage system (referred to as just "ETERNUS DX60/DX80/DX90" in the remainder of this manual), and explains the regular checks and maintenance required.
Preface The ETERNUS DX60/DX80/DX90 is designed, developed and manufactured as contemplated for general use, including without limitation, general office use, personal use, household use, and ordinary industrial use, but is not designed, developed and manufactured for use in situations with accompanying fatal risks or dangers that, unless extremely high safety is secured, could lead directly to death, personal injury, severe physical damage or other loss (hereinafter "High Safety Required Use"), including w
Preface P3AM-3042-06ENZ0 ETERNUS DX60/DX80/DX90 Disk storage system User Guide 5 Copyright 2010 FUJITSU LIMITED
About this Manual Organization This manual is organized as follows: • Chapter 1 Overview This chapter describes the special features, data configurations of RAID groups, and specifications of the ETERNUS DX60/DX80/DX90. • Chapter 2 Components This chapter describes the components of the ETERNUS DX60/DX80/DX90. • Chapter 3 Standard Operations This chapter describes how to turn the ETERNUS DX60/DX80/DX90 on and off, and how to attach and remove the front cover or flange cover.
About this Manual Warning Notations Warning signs are shown throughout this manual in order to prevent injury to the user and/or material damage. These signs are composed of a symbol and a message describing the recommended level of caution. The following explains the symbols, their levels of caution, and their meanings as used in this manual. WARNING CAUTION IMPORTANT This symbol indicates the possibility of serious or fatal injury if the ETERNUS DX60/DX80/DX90 is not used properly.
About this Manual How Warnings are Presented in this Manual A message is written beside the symbol indicating the caution level. This message is marked with a vertical ribbon in the left margin, to distinguish this warning from ordinary descriptions. An example is shown here.
About this Manual Latest Information The information in this document is subject to change without notice for functionality expansion of ETERNUS DX60/DX80/DX90 and improvement. The latest version of this document and the latest information about the ETERNUS DX60/DX80/DX90 is released in the following web-site. Access the following address if needed. http://www.fujitsu.
About this Manual Manuals Code ETERNUS DX60/DX80/DX90 CLI User Guide P2X0-0710 Description This manual describes how to monitor and set the ETERNUS DX60/DX80/ DX90 via Command Line Interface (CLI). ETERNUS Multipath Driver V2.0 User's Guide (For Windows®) P2WW-1451 (For Linux) P2U3-0031 (For AIX) P2U3-0051 ETERNUS Multipath Driver V3.0 User's Guide For Solaris™ Operating System ETERNUS MPIO for IBM AIX V2.0.
Labels Warning labels and manufacturer's labels are found in various places of the ETERNUS DX60/ DX80/DX90, as shown in the example below. Do not remove these labels. ■ Controller Enclosure Manufacturer’s label The label with the model, serial #, etc. is located here.
Labels ■ Drive Enclosure ■ AC Outlet Box (1U) Manufacturer’s label The label with the model, serial #, etc. is located here.
Labels ■ AC Outlet Box (2U) Manufacturer’s label The label with the model, serial #, etc. is located here.
Contents Chapter 1 1.1 1.2 1.2.1 1.2.2 1.2.3 1.2.4 1.2.5 1.2.6 1.3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.3.7 1.3.8 System Features .............................................................................................. 22 Configuration .................................................................................................... 26 RAID Level ................................................................................................................................
Contents 3.3 3.4 3.5 3.6 Attaching and Removing the Front Cover ........................................................ 75 Attaching and Removing the Flange Cover ..................................................... 78 Turning the AUTO POWER Switch On/Off ...................................................... 79 Wearing the Wrist Strap ................................................................................... 81 Chapter 4 Flow from Installation to Operation ...................................
Contents 7.4.4 7.5 7.6 Remote Support Setup ............................................................................................................ 178 Server Connection Setup ............................................................................... 179 System Status Check ..................................................................................... 180 Chapter 8 8.1 8.1.1 8.1.2 8.1.3 8.1.4 8.2 8.2.1 8.2.2 8.2.3 8.2.4 Disk Installation ..............................................
Contents Appendix B Events detected by ServerView ..........................................229 Appendix C About Using of Open Sources ............................................230 Index .......................................................................................................
Figure of Contents Figure 1.1 Figure 1.2 Figure 1.3 Figure 1.4 Figure 1.5 Figure 1.6 Figure 1.7 Figure 1.8 Figure 1.9 Figure 1.10 Figure 1.11 Figure 1.12 Figure 1.13 Figure 1.14 Figure 1.15 Figure 1.16 Figure 1.17 Figure 1.18 Figure 1.19 Figure 1.20 Figure 2.1 Figure 2.2 Figure 2.3 Figure 2.4 Figure 2.5 Figure 2.6 Figure 2.7 Figure 2.8 Figure 2.9 Figure 2.10 Figure 2.11 Figure 2.12 Figure 2.13 Figure 2.14 Figure 2.15 Figure 2.16 Figure 2.17 Figure 2.18 Figure 2.19 Figure 2.20 Figure 2.21 Figure 2.
Figure of Contents Figure 2.29 Figure 2.30 Figure 2.31 Figure 2.32 Figure 2.33 Figure 2.34 Figure 3.1 Figure 5.1 Figure 6.1 Figure 6.2 Figure 6.3 Figure 6.4 Figure 6.5 Figure 6.6 Figure 7.1 Figure 7.2 Figure 7.3 Figure 7.4 Figure 7.5 Figure 7.6 Figure 7.7 Figure 7.8 Figure 7.9 Figure 7.10 Figure 7.11 Figure 7.12 Figure 7.13 Figure 7.14 Figure 7.15 Figure 7.16 Figure 7.17 Figure 7.18 Figure 7.19 Figure 7.20 Figure 7.21 Figure 7.22 Figure 7.23 Figure 7.24 Figure 7.25 Figure 7.26 Figure 7.27 Figure 7.
Figure of Contents Figure 7.37 Figure 7.38 Figure 7.39 Figure 7.40 Figure 7.41 Figure 7.42 Figure 7.43 Figure 7.44 Figure 8.1 Figure 8.2 Figure 8.3 Figure 8.4 Figure 8.5 Figure 9.1 Figure 9.2 Figure 9.3 [Setup Network Environment] screen (when ServerView is running) ...................................... [Trap] screen ........................................................................................................................... [Download MIB File] screen........................................
Table of Contents Table 1.1 Table 1.2 Table 1.3 Table 1.4 Table 1.5 Table 1.6 Table 1.7 Table 1.8 Table 1.9 Table 1.10 Table 5.1 Table 5.2 Table 5.3 Table 5.4 Table 6.1 Table 6.2 Table A.1 Table A.2 Table A.3 Table A.4 Table A.5 Table A.6 Table A.7 Table A.8 Table A.9 Table A.10 Table A.11 Table A.12 Table A.13 Table A.14 Table A.15 Table A.16 Table A.17 Table A.18 Table A.19 Table A.20 Table A.21 Table A.22 Table A.23 Table A.24 Table B.1 User capacity per disk ...........................................
Chapter 1 Overview This chapter provides an overview of the ETERNUS DX60/DX80/DX90 features, and specifications. 1.1 System Features Special features of the ETERNUS DX60/DX80/DX90 are shown below: ■ Space and Energy Savings • Compact design makes effective use of rack space - Three models are available; ETERNUS DX60, ETERNUS DX80, and ETERNUS DX90. All models are compactly-designed to use rack space efficiently, coming in 2U size (*1) enclosures.
Chapter 1 Overview > 1.1 System Features ■ Easy Installation and Operation Management • Settings of the ETERNUS DX60/DX80/DX90 and its operation management can be performed by GUI that uses a Web browser (hereafter referred to as "GUI"), or CLI that uses commands and command scripts. Settings required for the ETERNUS DX60/DX80/DX90 initial installation can be easily performed by following the GUI wizard and inputting parameters for displayed setting items.
Chapter 1 Overview > 1.1 System Features - The ETERNUS DX60/DX80/DX90 supports multiple Operating Systems such as UNIX, Linux, Windows®, and VMware®, and can be connected as a storage system for PRIMEQUEST, SPARC Enterprise, PRIMERGY servers as well as for UNIX/IA servers of other companies. Also the RAID aggregation using SAN (Storage Area Network) is available.
Chapter 1 Overview > 1.1 System Features • System Capacitor Unit (SCU) A SCU that does not need to be regularly replaced is installed as a backup power source in case of a power failure. If the power fails, the SCU enables the cache memory data to be saved to flash memory. Therefore, unlike a battery, the SCU does not have a time limit to save data. The SCU is charged so quickly that write performance is recovered right after power recovery.
Chapter 1 Overview > 1.2 Configuration 1.2 Configuration This chapter describes items to be noted before configuring the ETERNUS DX60/DX80/DX90 systems. 1.2.1 RAID Level This section describes the supported RAID level and usage (RAID level selection criteria), and RAID group configuration. ■ Supported RAID levels and mechanism The ETERNUS DX60/DX80/DX90 supports the following RAID levels.
Chapter 1 Overview > 1.2 Configuration Each RAID level description is shown below. • RAID0 (striping) Data is split in unit of blocks and stored across multiple disks. Data writing request A C D A B C D HDD0 HDD1 Figure 1.1 • B RAID0 concept RAID1 (mirroring) RAID1 stores the same data on two duplicated disks at the same time. If one disk fails, other disk continues operation. Data writing request A B C D A A B B C C D D HDD0 HDD1 Figure 1.
Chapter 1 Overview > 1.2 Configuration • RAID1+0 (striping of pairs of disks for mirroring) RAID1+0 combines the performance of RAID0 (striping) with the reliability of RAID1 (mirroring). Data writing request A B C D D D’ C Mirroring HDD3 C’ B HDD7 Mirroring HDD2 B’ A HDD6 Mirroring HDD1 A’ HDD5 Mirroring Striping (RAID0) HDD0 Mirroring (RAID1) HDD4 Figure 1.
Chapter 1 Overview > 1.2 Configuration • RAID5+0 (double striping with distributed parity) Multiple RAID5 volumes are RAID0 striped. For large capacity configurations, use of RAID5+0 instead of RAID5 results in enhanced performance, improved reliability, and shorter rebuilding times.
Chapter 1 Overview > 1.2 Configuration • RAID6 (striping with distributed double parities) Store two different parities on different disks (double parities) to recover from up to two disk failures.
Chapter 1 Overview > 1.2 Configuration Table 1.
Chapter 1 Overview > 1.2 Configuration 1.2.2 RAID Groups and Volumes ■ RAID group In an ETERNUS DX60/DX80/DX90 Disk storage system, you can set up the RAID groups to all use the same RAID level or a mixture of different RAID levels. RAID Group 1 Figure 1.7 RAID Group 2 Example of a RAID group Table 1.4 show the recommended number of disks that configures a RAID group. Table 1.
Chapter 1 Overview > 1.2 Configuration • Table 1.5 shows the maximum number of volumes that can be set. Table 1.5 The maximum number of volumes that can be set Model Per RAID group Per storage system ETERNUS DX60 Max. 128 Max. 512 ETERNUS DX80/DX90 Max. 128 Max. 1,024 • Table 1.6 shows the time for volume formatting (when the volume capacity is 100GB). Table 1.6 RAID level Volume formatting time (for SAS disks and Nearline SAS disks) No. of disks Time required for volume formatting (*1) 3.
Chapter 1 Overview > 1.2 Configuration 1.2.4 Hot Spare Hot spares are used as spare disks for when disks in a RAID group fail, or are in error status. The following two types of hot spare are available: • Global Hot spare This is available for any RAID group. • Dedicated Hot spare This is only available to one specified RAID group. Assign "Dedicated Hot spares" to RAID groups that contain important data, in order to preferentially improve their access to hot spares.
Chapter 1 Overview > 1.2 Configuration 1.2.5 Disks Three kinds of drives can be installed in the device: SAS disks, Nearline SAS disks, and SSDs. Each is suitable for the following usage cases: • SAS Disk SAS disks are highly-performance/high-reliability disks for enterprise use. SAS disks support 24/7/365 operations and are used to store high performance databases and other frequently accessed data. 2.5" SAS disks take less space, consume less electrical power, and are lighter than 3.5" SAS disks.
Chapter 1 Overview > 1.3 Functions 1.3 Functions This section describes the main ETERNUS DX60/DX80/DX90 functions. 1.3.1 Rebuild/Copyback When a disk fails and the RAID group redundancy has been broken, Rebuild/Copyback restores the disk status back to normal status as a background process. Rebuild Creates data from the disks other than the failed disk and writes the data into the hot spare. Hot Spare Failure RAID5 (No Redundancy) RAID5 (Redundant) Replaces the failed disk with the new disk.
Chapter 1 Overview > 1.3 Functions Table 1.7 shows the times (for 100GB volumes) required for the rebuild process to complete for various disk configurations. Table 1.7 RAID level Rebuild process times (for SAS disks and Nearline SAS disks) No. of disks Rebuild process time (*1) 3.5" SAS disks 2.5" SAS disks Nearline SAS disks RAID1 2 Approx. 20 minutes/100GB Approx. 27 minutes/100GB Approx. 47 minutes/100GB RAID1+0 8 Approx. 5 minutes/100GB Approx. 7 minutes/100GB Approx.
Chapter 1 Overview > 1.3 Functions 1.3.2 Redundant Copy The Redundant Copy function creates data in the disk, in which the Disk Patrol function decides that preventative maintenance is required, from the other disks to the hot spare. With this function, you can restore the data while maintaining redundancy. Creates data from the disks other than the maintenance target disk, and writes data into the hot spare.
Chapter 1 Overview > 1.3 Functions 1.3.3 Advanced Copy The Advanced Copy functions allows the ETERNUS DX60/DX80/DX90 to carry out high-speed data copying operations on its own, with no need to draw on server resources.
Chapter 1 Overview > 1.3 Functions • QuickOPC QuickOPC copies all data as initial copy as OPC. After the initial copy has completed, only updated data (differential data) need to be copied hereafter. QuickOPC is suitable for the following usages. - Making backup for less updated data - Making system test data replication - Restoration from the backup • SnapOPC+ As updates occur in the source data, SnapOPC+ saves the pre-change for each affected generation level.
Chapter 1 Overview > 1.3 Functions Which copy functions and how many copy sessions are actually available will depend on the storage system model involved, whether or not a copy license has been purchased, and which license. Table 1.9 shows the various copy functions that are available. Table 1.10 shows the maximum number of copy sessions allowed. Table 1.
Chapter 1 Overview > 1.3 Functions 1.3.4 RAID Migration RAID migration is a function that transfers a volume to a different RAID group with the data integrity being guaranteed. By using RAID migration, RAID levels and volumes can be hot switched. This allows easy redistribution of volumes among RAID groups in response to customer needs. RAID migration can be carried out while the system is running, and may also be used to switch data to a different RAID level changing from RAID5 to RAID1+0, for example.
Chapter 1 Overview > 1.3 Functions • Example when volumes transferred from a RAID5(3+1) configuration to a different RAID level, RAID1+0(3+3), configuration: RAID5 (3+1) 300GB Unused 300GB 300GB 300GB 300GB 300GB 4 300GB 300GB 300GB LUN0 900GB Unused 300GB 6 RAID1+0 (3+3) Migrate to another RAID group 300GB 300GB 300GB 300GB 300GB 300GB LUN0 900GB 300GB 300GB 300GB 300GB 300GB 300GB LUN0 900GB Figure 1.
Chapter 1 Overview > 1.3 Functions 1.3.5 Logical Device Expansion Logical Device Expansion (RAID Group Expansion) allows the capacity of an existing RAID group to be dynamically extended by the addition of extra disks. By using Logical Device Expansion to extend the capacity of existing RAID group in this way, new volume can be added without having to add new RAID groups, as used to be the case.
Chapter 1 Overview > 1.3 Functions 1.3.6 LUN Concatenation LUN concatenation is a function that is used to add new area to a volume and so expand the volume capacity available to the server. This function enables the reuse of leftover free area in a RAID group and can be used to solve capacity shortages. The following example shows the concatenation of an unused area of a different RAID group into LUN2, in order to expand LUN2's capacity to 900GB.
Chapter 1 Overview > 1.3 Functions 1.3.7 Security Functions The ETERNUS DX60/DX80/DX90 possesses functions that allow numbers of volumes, that can be recognized by a server, to be expanded or restricted by adjusting how the logical units (LUN) seen by the host correspond to the volumes within the storage system. "LUN mapping function" and "Host Affinity function" are available as security functions.
Chapter 1 Overview > 1.3 Functions • Host Affinity function The Host Affinity function sets the "Affinity Group" to be applied for each server. "Affinity Group" defines the relationship between the host logical units (LUN) and the device logical volumes. Multiple settings are available. The Host Affinity function uses the server's World Wide Name (WWN), iSCSI name, or SAS address to distinguish it from other servers.
Chapter 1 Overview > 1.3 Functions 1.3.8 Eco-mode Using Eco-mode allows the spindle rotation of the disk to be stopped for specified periods to reduce power consumption. Disk spin-up and spin-down schedules can be set for each RAID group, and can also be set to allow backup operations. The following shows the Eco-mode mechanism.
Chapter 2 Components This chapter describes the components of the various form factors. 2.1 3.5" Type Controller Enclosure The 3.5" type controller enclosure contains 3.5" disks installed in the front, and controller modules and power supply units (with fans) in the rear. 2.1.1 Front View ■ With front cover POWER LED Glows green ( turned on. ) when the power is READY LED Glows green ( for use.
Chapter 2 Components > 2.1 3.5" Type Controller Enclosure ■ Without front cover DISK READY/FAULT LED Glows ( ) or blinks green ( ) when disks are operating normally. Glows orange ( ) when a disk has failed. Blinks orange ( ) according to the VDS (Microsoft Virtual Disk Service) commands. Disk Up to 12 disks can be installed in the ETERNUS DX60/DX80/DX90. AUTO POWER Switch Enables the AC Auto-Link Mode (This function automatically turns on the linked device once AC power is supplied).
Chapter 2 Components > 2.1 3.5" Type Controller Enclosure Do Not CAUTION • RAID groups, volumes, and hot spares are factory set. Disks which contain RAID groups or volumes, or disks which are hot spares should not be moved to another slot. 2.1.2 Rear View ■ Single controller model Controller (CM#0) Cover Remove this when installing an expansion controller (optional). Each controller has one processor, cache memory, and SCU. Power Supply Unit (PSU#0) Figure 2.
Chapter 2 Components > 2.1 3.5" Type Controller Enclosure ■ Controller (CM) • ETERNUS DX60/DX80 Fibre Channel model Figure 2.6 shows the ETERNUS DX60/DX80 Fibre Channel model controller. SCU STATUS LED Glows green ( ) when SCU is normal. Blinks green ( ) when being charged (for about one minute after the device power is turned on). IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations.
Chapter 2 Components > 2.1 3.5" Type Controller Enclosure • ETERNUS DX90 Fibre Channel model Figure 2.7 shows the ETERNUS DX90 Fibre Channel model controller. SCU STATUS LED Glows green ( ) when SCU is normal. Blinks green ( ) when being charged (for about one minute after the device power is turned on). IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations. SAS (DE) LINKUP LED Glows green ( ) when link has been established.
Chapter 2 Components > 2.1 3.5" Type Controller Enclosure • ETERNUS DX60/DX80 iSCSI model Figure 2.8 shows the ETERNUS DX60/DX80 iSCSI model controller. SCU STATUS LED Glows green ( ) when SCU is normal. Blinks green ( ) when being charged (for about one minute after the device power is turned on). IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations. SAS (DE) LINKUP LED Glows green( ) when link has been established.
Chapter 2 Components > 2.1 3.5" Type Controller Enclosure • ETERNUS DX60/DX80 SAS model Figure 2.9 shows the ETERNUS DX60/DX80 SAS model controller. SCU STATUS LED Glows green ( ) when SCU is normal. Blinks green ( ) when being charged (for about one minute after the device power is turned on). IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations. SAS (DE) LINKUP LED Glows green ( ) when link has been established.
Chapter 2 Components > 2.1 3.5" Type Controller Enclosure ■ Power supply unit Figure 2.10 shows the power supply unit. Each power supply unit has two internal cooling fans. Inlet Power cord connects here. STATUS LED Blinks green ( ) when AC power is supplied (power cord is connected) but DC power is turned off. Glows green ( ) when AC power is supplied (power cord is connected) and DC power is turned on. Glows orange ( ) to indicate a fault has been detected in a fan or power supply. Figure 2.
Chapter 2 Components > 2.2 2.5" Type Controller Enclosure 2.2 2.5" Type Controller Enclosure The 2.5" type controller enclosure contains 2.5" disks installed in the front, and controller modules and power supply units (with fans) in the rear. 2.2.1 Front View ■ With flange cover DISK READY LED Glows ( ) or blinks green ( are operating normally. ) when disks DISK FAULT LED Glows orange ( Blinks orange ( ) when a disk has failed. ) according to the VDS (Microsoft Virtual Disk Service) commands.
Chapter 2 Components > 2.2 2.5" Type Controller Enclosure ■ Without flange cover AUTO POWER Switch Enables the AC Auto-Link Mode (This function automatically turns on the linked device once AC power is supplied). This switch is set to "OFF" as the factory setting. MODE SELECT Switch Enables the device power to be turned on via power linkage This switch is set to "ON" as the factory setting and should not be set to "OFF".
Chapter 2 Components > 2.2 2.5" Type Controller Enclosure 2.2.2 Rear View ■ Single controller model Controller (CM#0) Cover Remove this when installing an expansion controller (optional). Each controller has one processor, cache memory, and SCU. Power Supply Unit (PSU#0) Power Supply Unit (PSU#1) Figure 2.14 Rear view of 2.5" type controller enclosure (single controller model) ■ Dual controller model Controller (CM#0) Controller (CM#1) Each controller has one processor, cache memory, and SCU.
Chapter 2 Components > 2.2 2.5" Type Controller Enclosure ■ Controller (CM) • ETERNUS DX60/DX80 Fibre Channel type Figure 2.16 shows the ETERNUS DX60/DX80 Fibre Channel model controller. SCU STATUS LED Glows green ( ) when SCU is normal. Blinks green ( ) when being charged (for about one minute after the device power is turned on). IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations.
Chapter 2 Components > 2.2 2.5" Type Controller Enclosure • ETERNUS DX90 Fibre Channel model Figure 2.17 shows the ETERNUS DX90 Fibre Channel model controller. SCU STATUS LED Glows green ( ) when SCU is normal. Blinks green ( ) when being charged (for about one minute after the device power is turned on). IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations. SAS (DE) LINKUP LED Glows green ( ) when link has been established.
Chapter 2 Components > 2.2 2.5" Type Controller Enclosure ■ Power supply unit Figure 2.18 shows the power supply unit. Each power supply unit has two internal cooling fans. Inlet Power cord connects here. STATUS LED Blinks green ( ) when AC power is supplied (power cord is connected) but DC power is turned off. Glows green ( ) when AC power is supplied (power cord is connected) and DC power is turned on. Glows orange ( ) to indicate a fault has been detected in a fan or power supply. Figure 2.
Chapter 2 Components > 2.3 3.5" Type Drive Enclosure 2.3 3.5" Type Drive Enclosure 3.5" type drive enclosures contain 3.5" disks installed in the front, and expanders and power supply units (with fans) in the rear. 2.3.1 Front View ■ With front cover POWER LED Glows green ( turned on. ) when the power is READY LED Glows green ( for use. ) when device is available FAULT LED Glows orange ( ) when an internal device part abnormality has been detected.
Chapter 2 Components > 2.3 3.5" Type Drive Enclosure ■ Without front cover DISK READY/FAULT LED Glows ( ) or blinks green ( ) when disks are operating normally. Glows orange ( ) when a disk has failed. Blinks orange ( ) according to the VDS (Microsoft Virtual Disk Service) commands. Disk Up to 12 can be installed in the ETERNUS DX60/DX80/DX90. DE_No. label Indicates the drive enclosure No.
Chapter 2 Components > 2.3 3.5" Type Drive Enclosure Do Not CAUTION • RAID groups, volumes, and hot spares are factory set. Disks which contain RAID groups or volumes, or disks which are hot spares should not be moved to another slot. 2.3.2 Rear View ■ Single expander model Expander (EXP#0) Cover A Unit that controls the interaction between the controller module and disks. Remove this when installing an expansion expander (optional). Power Supply Unit (PSU#0) Power Supply Unit (PSU#1) DE_No.
Chapter 2 Components > 2.3 3.5" Type Drive Enclosure ■ Expander Figure 2.24 shows the expander. IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations. SAS LINKUP LED Glows green ( ) when link has been established. SAS LINKUP LED Glows green ( ) when link has been established. Glows orange ( ) to indicate a fault has been detected. UNIT READY/FAULT LED Glows green ( ) during normal operation.
Chapter 2 Components > 2.4 2.5" Type Drive Enclosure IMPORTANT 2.4 • Each enclosure has two power supply units (PSU#0 and PSU#1). The power cords must be connected to the inlets of both power supply units. • When connecting the power cord right after it is disconnected, wait for the STATUS LED of the power supply unit is turned off completely (about 10 seconds) before connecting it again. 2.5" Type Drive Enclosure 2.5" type drive enclosures contain 2.
Chapter 2 Components > 2.4 2.5" Type Drive Enclosure ■ Without flange cover AUTO POWER Switch The AUTO POWER Switch of the drive enclosure is set to "OFF" by default, and should not be set to "ON". MODE SELECT Switch Enables the device power to be turned on via power linkage This switch is set to "ON" by default, and should not be set to "OFF". This is not used. Figure 2.27 Front view of 2.
Chapter 2 Components > 2.4 2.5" Type Drive Enclosure 2.4.2 Rear View ■ Single expander model Expander (EXP#0) Cover A Unit that controls the interaction between the controller module and disks. Remove this when installing an expansion expander (optional). Power Supply Unit (PSU#0) Power Supply Unit (PSU#1) DE_No. label Indicates the drive enclosure No. Figure 2.29 Rear view of 2.
Chapter 2 Components > 2.4 2.5" Type Drive Enclosure ■ Expander Figure 2.31 shows the expander. IDENTIFY LED Blinks blue ( ) or turns off ( ) as ordered via GUI to identify the enclosure installation locations. SAS LINKUP LED Glows green ( ) when link has been established. SAS LINKUP LED Glows green ( ) when link has been established. Glows orange ( ) to indicate a fault has been detected. UNIT READY/FAULT LED Glows green ( ) during normal operation.
Chapter 2 Components > 2.5 AC Outlet Box IMPORTANT 2.5 • Each enclosure has two power supply units (PSU#0 and PSU#1). The power cords must be connected to the inlets of both power supply units. • When connecting the power cord right after it is disconnected, wait for the STATUS LED of the power supply unit is turned off completely (about 10 seconds) before connecting it again. AC Outlet Box There are two sizes of AC outlet box: 1U and 2U. 2.5.
Chapter 3 Standard Operations This chapter explains the procedures for turning the device on and off, attaching and removing the front or flange cover, turning on the AUTO POWER switch, and wearing a wrist strap. 3.1 Power ON Control This section explains how to turn the power on. IMPORTANT • After turning the power on, it takes about 3 minutes for the device to become READY (i.e. the READY LED turns on).
Chapter 3 Standard Operations > 3.1 Power ON Control Procedure 1 Press the power switch ( ) of the controller enclosure. Controller enclosure POWER LED turns on. W h e n dr i v e en c l o s u r es a r e i ns ta l l e d , t h e po w e r t u rn s o n automatically. Drive enclosure Power switch Drive enclosure Controller enclosure 2 After a few minutes, check that controller enclosure’s READY LED is lit up. 3 Check that all enclosure’s POWER LED and READY LED are lit up.
Chapter 3 Standard Operations > 3.2 Power OFF Control 3.2 Power OFF Control This section explains how to turn the power off. IMPORTANT • When turning off the device, the power shuts off only after the data in the cache memory has been written to the hard disk. Therefore, it can take one minute (maximum six minutes) for the power supply to be completely turned off.
Chapter 3 Standard Operations > 3.3 Attaching and Removing the Front Cover 3.3 Attaching and Removing the Front Cover This section explains how to attach and remove the front cover of the 3.5" type controller enclosure or 3.5" type drive enclosure. Do CAUTION • After completing the operation, be sure to reattach the front cover. This section explains how to attach and remove the front cover of the 3.
Chapter 3 Standard Operations > 3.3 Attaching and Removing the Front Cover 2 Holding the tab on the front cover, attach the right side of the cover to the enclosure. CAUTION Do • When removing the front cover, support its left side with your left hand, to prevent it from coming loose and falling.
Chapter 3 Standard Operations > 3.3 Attaching and Removing the Front Cover ■ Procedure for removing the front cover Remove the front cover in the following order. Procedure 1 By holding the tab of the front cover, pull the cover toward you to remove it. CAUTION Do • When attaching the right side of the front cover, support its left side with your left hand, to prevent it from coming loose and falling.
Chapter 3 Standard Operations > 3.4 Attaching and Removing the Flange Cover 3.4 Attaching and Removing the Flange Cover This section explains how to attach and remove the flange cover of the 2.5" type controller enclosure and the 2.5" type drive enclosure. Do CAUTION • At the completion of this operation, check that the flange cover is attached. This section explains how to attach and remove the flange cover of the 2.
Chapter 3 Standard Operations > 3.5 Turning the AUTO POWER Switch On/Off 2 Tighten the thumb screw to fasten the flange cover. Thumb screw End of procedure ■ Procedure for removing the flange cover Loosen the thumb screw to remove the flange cover. 3.5 Turning the AUTO POWER Switch On/Off This section explains how to enable the AC automatic linkage mode by turning the AUTO POWER switch of the controller enclosure to "ON".
Chapter 3 Standard Operations > 3.5 Turning the AUTO POWER Switch On/Off Pin AUTO POWER switch IMPORTANT 3 • The AUTO POWER switch of the drive enclosure is turned to "OFF" as the factory setting, and should not be turned to "ON". • If AC power is being supplied, turning the AUTO POWER switch of the controller enclosure to "ON" will cause the ETERNUS DX60/DX80/DX90 to turn on.
Chapter 3 Standard Operations > 3.6 Wearing the Wrist Strap 3.6 Wearing the Wrist Strap The wrist strap must be worn to discharge the human body's natural static electricity. This section explains how to wear the wrist strap. Do CAUTION When performing the following operations, make sure to wear the supplied wrist strap, and do not remove it until the operation is complete.
Chapter 4 Flow from Installation to Operation This chapter explains the flow of work from installation to the start of ETERNUS DX60/DX80/ DX90 operation. Preparation (1) Package Contents Check Refer to "ETERNUS DX60/DX80/DX90 Disk storage system Package Contents" and check that there are no missing parts.
Chapter 4 Flow from Installation to Operation > Installation Attach the rack mount kit to the rack and install the ETERNUS DX60/DX80/DX90. Refer "5.2 Rack Installation" (page 88) Cable Connection Connect the following cables.
Chapter 4 Flow from Installation to Operation > Basic Setup Start GUI from the Web browser of the connected PC, and perform the basic setup of the ETERNUS DX60/DX80/DX90. (1) Initial Setup Perform device initial setup. • • • • • • Set Date and Time Set Storage System Name Change Password Modify the FC Port Mode (only for ETERNUS DX90) Port Parameter Settings Setup Network Environment Refer "7.2.1 Initial Setup" (page 140) (2) Configuration Wizard Perform the settings necessary for device operation.
Chapter 4 Flow from Installation to Operation > Other Settings Perform the following settings (as required). Advanced Copy Setup (1) If the Advanced Copy functions are to be used, set them up. Refer "7.3 Advanced Copy Setup" (page 163) Monitoring Setup (2) Perform the ETERNUS DX60/DX80/DX90 monitoring setup if required. • Notification of ETERNUS DX60/DX80/DX90 problems as they occur is possible if the event notification method and level have been set.
Chapter 5 Installation This chapter describes the ETERNUS DX60/DX80/DX90 installation procedure. Before installing the device, make sure to check the "ETERNUS DX60/DX80/DX90 Disk storage system Safety Precautions". Refer "ETERNUS DX60/DX80/DX90 Disk storage system Safety Precautions" 5.1 Installation Preparation 5.1.1 Placement Area ■ Installation area Refer to the placement area of the rack to install the device.
Chapter 5 Installation > 5.1 Installation Preparation 5.1.2 Check the Number of Wall Outlets Check the required type and number of the wall outlets. ■ Type of wall outlet connectors All ETERNUS DX60/DX80/DX90 device models include US spec. AC200-240V cables (with plug) as standard. In addition, power cords must comply with the particular safety standards of the country of use. In some cases, a power cord will need to be purchased locally to satisfy the relevant power safety requirements.
Chapter 5 Installation > 5.2 Rack Installation • AC Outlet Boxes Connected Table 5.3 Required number of power outlets (when AC outlet boxes are connected) Component Controller Enclosure 1 1 1 1 1 1 0−1 2−3 4−5 6−7 8−9 0−5 6−9 AC Outlet Box (1U) 1 2 3 4 5 − − AC Outlet Box (2U) − − − − − 1 2 No. of power outlets 2 4 6 8 10 2 4 Drive Enclosure 5.
Chapter 5 Installation > 5.2 Rack Installation ■ Installation conditions for other rack brands When installing the ETERNUS DX60/DX80/DX90 in other 19-inch rack brands, make sure that the following conditions are met. Note that there is no guarantee that operations will perform properly when other rack brands are used to install the ETERNUS DX60/DX80/DX90.
Chapter 5 Installation > 5.2 Rack Installation ■ Rack installation example Install the controller enclosure, drive enclosures and the AC outlet box in the following layout. • When installing all 3.
Chapter 5 Installation > 5.2 Rack Installation • For the ETERNUS DX80/DX90 (2.5" disk model), 3.5" type and 2.5" type enclosures can be installed together. • ETERNUS DX60/DX80/DX90 components should be installed in a rack in the following order (from the bottom upwards): (1) AC outlet box(es) (2) Controller enclosure (3) Drive enclosure(s) IMPORTANT 5.2.1 Installing Controller Enclosure This section describes how to install the controller enclosure in a rack.
Chapter 5 Installation > 5.2 Rack Installation 2 Adjust the rack rails (bracket L (for left side) and bracket R (for right side)) sizes to fit the rack. Reposition the M4 screws to adjust the length of the rack rails (brackets) to match the distance between the front and rear rack pillars. Leave the M4 screws slightly unscrewed, as the bracket must be attached to the rack before they can be completely tightened. (Rear rack pillars) Loosen the M4 screws, and adjust the rack rails to the depth of the rack.
Chapter 5 Installation > 5.2 Rack Installation The four M5 screw positions for the rack rails (brackets) are determined relatively to the base line of controller enclosure. The M5 screws should be inserted in the 1st and 3rd holes above the base line.
Chapter 5 Installation > 5.2 Rack Installation ■ 2.5" type controller enclosure • Use the thumb screw to fasten the front right of the controller enclosure to the rack. • After attaching the supplied flange cover, use the thumb screw to fasten the front left of the controller enclosure to the rack. For details on how to attach the flange cover, refer to "3.4 Attaching and Removing the Flange Cover" (page 78). (Rear rack pillars) Thumb screw 8 For a 3.
Chapter 5 Installation > 5.2 Rack Installation 5.2.2 Installing Drive Enclosure This section describes how to install the drive enclosure in a rack. CAUTION Do Not • RAID groups, volumes, and hot spares are factory set. Disks which contain RAID groups or volumes, or disks which are hot spares should not be moved to another slot.
Chapter 5 Installation > 5.2 Rack Installation When installing multiple drive enclosures, install them on the controller enclosure in order of the "DE_No. label" attached on the drive enclosure. The "DE_No. label" is attached in the following location. • 3.5" type drive enclosure IMPORTANT At the right side of the front of the drive enclosure Between the EXP#0 and EXP#1 expanders at the rear of the drive enclosure DE_No. label • 2.
Chapter 5 Installation > 5.2 Rack Installation Reposition the M4 screws to adjust the length of the rack rails (brackets) to match the distance between the front and rear rack pillars. Leave the M4 screws slightly unscrewed, as the bracket must be attached to the rack before they can be completely tightened. (Rear rack pillars) Loosen the M4 screws, and adjust the rack rails to the depth of the rack. Bracket L (for left side) "L" is stamped on the inner side of the left rack rail.
Chapter 5 Installation > 5.2 Rack Installation The four M5 screw positions for the rack rails (brackets) are determined relative to the drive enclosure base line. The M5 screws should be inserted in the 1st and 3rd holes above the base line.
Chapter 5 Installation > 5.2 Rack Installation ■ 2.5" type drive enclosure • Use the thumb screw to fasten the front right of the drive enclosure to the rack. • After attaching the supplied flange cover, use the thumb screw to fasten the front left of the drive enclosure to the rack. For details on how to attach the flange cover, refer to "3.4 Attaching and Removing the Flange Cover" (page 78). (Rear rack pillars) Thumb screw 8 For 3.5" type drive enclosures, finish by replacing the front cover.
Chapter 5 Installation > 5.2 Rack Installation Procedure 1 Refer to "ETERNUS DX60/DX80/DX90 Disk storage system Package Contents" to confirm there are no missing parts for the rack mount kit. "ETERNUS DX60/DX80/DX90 Disk storage system Package Contents" Refer 2 Remove the two brackets temporarily attached to the AC outlet box. Remove the two M3 screws from the front of the AC outlet box to free the brackets.
Chapter 5 Installation > 5.2 Rack Installation The four M6 screw positions for the brackets are determined relative to the AC outlet box base line. The M6 screws should be inserted in the 1st and 3rd holes above the base line. (Rear rack pillars) [Left] 3rd position (M6 screws) [Right] 1U AC outlet box 3rd position (M6 screws) 1st position (M6 screws) 1st position (M6 screws) Base line of AC outlet box Brackets 4 Install the AC outlet box in the rack.
Chapter 5 Installation > 5.2 Rack Installation - Attachment procedure M5 cage nut Clip the cage nut tabs into the desired hole from the inside. M5 rack nut Clip the rack nut over the desired hole from the side. Side view M5 cage nut M5 Rack nut Rack pillar (square) Rack pillar (round) 5-2 Attach the blank panel to the rack pillars using two black M5 screws. M5 screw Blank panel M5 screw (Front rack pillars) AC outlet box (Rear rack pillars) End of procedure 5.2.
Chapter 5 Installation > 5.2 Rack Installation Procedure 1 Refer to "ETERNUS DX60/DX80/DX90 Disk storage system Package Contents" to confirm there are no missing parts for the rack mount kit. Refer 2 "ETERNUS DX60/DX80/DX90 Disk storage system Package Contents" Attach the M5 cage nuts or M5 rack nuts to the rear rack pillar. • Use the M5 cage nuts if the rack pillar holes are square. • Use the M5 rack nuts if the rack pillar holes are round.
Chapter 5 Installation > 5.2 Rack Installation 3 Install the AC outlet box in the rack. Fasten it to the prepared holes in the pillars with eight M5 screws. (Rear rack pillars) M5 screws M5 screws 4 Attach the blank panel to the rack front. Install it in the same position as the AC outlet box. 4-1 Attach the M5 cage nuts or M5 rack nuts to the front rack pillar. • Use the M5 cage nuts if the rack pillar holes are square. • Use the M5 rack nuts if the rack pillar holes are round.
Chapter 5 Installation > 5.2 Rack Installation 4-2 Fasten the blank panel to the prepared holes in the pillars with four M5 screws.
Chapter 6 Cable Connection This chapter explains how to connect various cables to the ETERNUS DX60/DX80/DX90. CAUTION Do • Make sure to wear a wrist strap before starting each operation, as failure to discharge static electricity may cause a device failure. Do not remove it until the operation is complete. • When the disk is brought from a cold to a warm place, there is a chance that the change in temperature can result in condensation forming on the magnetic platters.
Chapter 6 Cable Connection > 6.
Chapter 6 Cable Connection > 6.2 LAN Cable Connection (for Operation Management) IMPORTANT CAUTION • The ETERNUS DX60/DX80/DX90 LAN ports operate by default in AutoNegotiation mode, which recognizes 1000Base-T/100Base-TX/10BaseT, and Full duplex / Half duplex automatically. - When connecting networking equipment such as hubs and routers, check the specifications and settings of the equipment to be connected.
Chapter 6 Cable Connection > 6.2 LAN Cable Connection (for Operation Management) ■ LAN cable connection procedure The following explains how to connect the LAN cable. IMPORTANT • To help with LAN cable management and prevent incorrect connections, attach labels to the LAN cables and make a note of connection origins and destinations. • When connecting LAN cables, check the connector orientation and then firmly push it all the way in.
Chapter 6 Cable Connection > 6.3 Fibre Channel Cable Connection (For Fibre Channel) 3 If the RMT ports are to be used, connect the LAN cables to RMT ports. 3-1 Connect the connector of the LAN cable to the RMT port of the controller 0 (CM#0) and controller 1 (CM#1). 3-2 Connect the other end of the LAN cable to the networking equipment, such as hub or router. For networking equipment connection details, refer to the documentation for the networking equipment being connected to. End of procedure 6.
Chapter 6 Cable Connection > 6.3 Fibre Channel Cable Connection (For Fibre Channel) CAUTION • Fibre Channel cable is thin and breaks easily, so be careful not to pinch the cable between devices or bend it too much. Keep a 30mm or larger radius when bending Fibre Channel cable. Failure to do so may cause device damage or failure. 30mm or larger 90˚ Do not bend square Do not bind up ■ Fibre Channel cable connection procedure The following explains how to connect the Fibre Channel cable.
Chapter 6 Cable Connection > 6.3 Fibre Channel Cable Connection (For Fibre Channel) Procedure 1 Remove the connector cover of Fibre Channel port. Remove the connector cover attached to the Fibre Channel port of the controller 0 (CM#0) or controller 1 (CM#1). Connector cover IMPORTANT 2 Keep the removed connector cover in a safe place where they will not be lost. Connect the Fibre Channel cable to the ETERNUS DX60/DX80/DX90. 2-1 Remove the covers from the Fibre Channel cable connectors.
Chapter 6 Cable Connection > 6.4 LAN Cable Connection (For iSCSI) Do CAUTION • When connecting the Fibre Channel cables, position them so that they will not obstruct replacement of the power supply unit or controllers by the maintenance engineer. 3 Connect the other end of the Fibre Channel cable to the server or Fibre Channel switch. 3-1 Remove the covers from the Fibre Channel cable connectors. 3-2 Connect the Fibre Channel cable to the Fibre Channel adapter in the server or Fibre Channel switch.
Chapter 6 Cable Connection > 6.4 LAN Cable Connection (For iSCSI) CAUTION Do Not • Do not bend the cable too much or bind it up. Doing so may cause a device damage or failure. 90 Do not bend square Do not bind up ■ LAN cable connection procedure The following explains how to connect the LAN cable. IMPORTANT • To help with LAN cable management and prevent incorrect connections, attach labels to the LAN cables and make a note of connection origins and destinations.
Chapter 6 Cable Connection > 6.5 MiniSAS Cable Connection (For SAS) Do CAUTION • When connecting the LAN cables, position them so that they will not obstruct replacement of the power supply unit or controllers by the maintenance engineer. 2 Connect the LAN cables to the server or switching hub. Connect the other end of the LAN cable to the server's LAN card or iSCSI HBA, or to the switching hub. For switching hub connection details, refer to the documentation for the switching hub being connected to.
Chapter 6 Cable Connection > 6.5 MiniSAS Cable Connection (For SAS) ■ MiniSAS cable connection procedure The following explains how to connect the miniSAS cable. IMPORTANT • To help with miniSAS cable management and prevent incorrect connections, attach labels to the miniSAS cables and make a note of connection origins and destinations. • When connecting miniSAS cables, check the connector orientation and then firmly push it all the way in.
Chapter 6 Cable Connection > 6.6 MiniSAS Cable Connection (For Drive Enclosures) Do CAUTION • When connecting the SAS cables, position them so that they will not obstruct replacement of the power supply unit or controllers by the maintenance engineer. 2 Connect the miniSAS cables to the server. Connect the other end of the miniSAS cables to the server's SAS cards. End of procedure 6.
Chapter 6 Cable Connection > 6.6 MiniSAS Cable Connection (For Drive Enclosures) ■ MiniSAS cable connection procedure The following explains how to connect the miniSAS cable. IMPORTANT • To help with miniSAS cable management and prevent incorrect connections, attach labels to the miniSAS cables and make a note of connection origins and destinations. • When connecting miniSAS cables, always check the symbols on the connector and port are matching.
Chapter 6 Cable Connection > 6.6 MiniSAS Cable Connection (For Drive Enclosures) Procedure 1 Connect the controller enclosure to the drive enclosure with the miniSAS cable. 1-1 Connect the SAS (OUT) port at controller 0 (CM#0) of controller enclosure, to the SAS (IN) port at expander 0 (EXP#0) of the drive enclosure 1 with the miniSAS cable. (1) Connect the plug to be connected to SAS (OUT) port, to the SAS (OUT) port of the controller 0 (CM#0).
Chapter 6 Cable Connection > 6.6 MiniSAS Cable Connection (For Drive Enclosures) The following shows the miniSAS connection figure between controller enclosure and drive enclosure. IMPORTANT Do not connect anything to the SAS (OUT) port on the end edge. - For single controller model EXP#0 Drive enclosure 1 CM#0 Controller enclosure Figure 6.
Chapter 6 Cable Connection > 6.6 MiniSAS Cable Connection (For Drive Enclosures) 2 When two or more drive enclosures are installed, connect the drive enclosures with the miniSAS cable. 2-1 Connect the SAS (OUT) port at expander 0 (EXP#0) of the drive enclosure 1, to the SAS (IN) port at expander 0 (EXP#0) of the drive enclosure 2 with the miniSAS cable. (1) Connect the plug to be connected to the SAS (OUT) port, to the SAS (OUT) port of the expander 0 (EXP#0) for the drive enclosure 1.
Chapter 6 Cable Connection > 6.6 MiniSAS Cable Connection (For Drive Enclosures) - For single controller model SAS (OUT) port SAS (IN) port EXP#0 Drive enclosure 2 EXP#0 Drive enclosure 1 CM#0 Controller enclosure Figure 6.
Chapter 6 Cable Connection > 6.7 Power Cord Connection 6.7 Power Cord Connection Connect the power cords to the ETERNUS DX60/DX80/DX90. WARNING Do Not • Do not disconnect the power cord plug with wet hands as it may lead to fire or electrical shock. • Do not attempt to repair a damaged power cord. Do not pull on, excessively bend/twist, apply heat or place heavy objects on the cord. Doing so will damage the cord, which may lead to fire or electrical shock.
Chapter 6 Cable Connection > 6.7 Power Cord Connection 6.7.1 With No AC Outlet Box The following explains how to connect the power cords when no AC outlet boxes are installed. Two power cords (4m) are provided for each enclosure. To help with power cord management and prevent incorrect connections, attach labels to the power cords and make a note of connection origins and destinations. IMPORTANT Procedure 1 Connect the power cords to the ETERNUS DX60/DX80/DX90.
Chapter 6 Cable Connection > 6.7 Power Cord Connection 2 Connect the power cords to the power outlet. Connect the plug at the other end of each power cord to the power outlet. IMPORTANT WARNING • Connecting the power cords to different power systems, on the PSU#0 and PSU#1 sides respectively, prevents power supply facility failures. • After unplugging the power cord, wait until the POWER STATUS LED of the power supply unit has turned off completely before reconnecting it.
Chapter 6 Cable Connection > 6.7 Power Cord Connection 6.7.2 When 1U AC Outlet Box is Installed The following explains how to connect the power cord when 1U AC outlet box is installed. IMPORTANT To help with power cord management and prevent incorrect connections, attach labels to the power cords and make a note of connection origins and destinations. Procedure 1 Remove the power cord clamps from the AC outlet box.
Chapter 6 Cable Connection > 6.7 Power Cord Connection The following table and figure show the connection path of an AC outlet cable and connection figure respectively Table 6.
Chapter 6 Cable Connection > 6.7 Power Cord Connection Drive Enclosure 9 Drive Enclosure 8 Drive Enclosure 7 Drive Enclosure 6 Drive Enclosure 5 Drive Enclosure 4 Drive Enclosure 3 Drive Enclosure 2 PSU#0 Inlet PSU#1 Inlet Drive Enclosure 1 Controller Enclosure PSU#0 Inlet PSU#1 Inlet AC outlet box 1 AC outlet box 2 AC outlet box 3 AC outlet box 4 AC outlet box 5 Outlet OUTPUT #0-1 Connect between the OUTPUT#0-n of the AC outlet box and the PSU#0 inlets of the ETERNUS DX60/DX80/DX90.
Chapter 6 Cable Connection > 6.7 Power Cord Connection 3 Connect the power cords (AC input cables) (4m) supplied with the AC outlet box to the inlet of the AC outlet box. Inlet INPUT #0 Inlet INPUT #1 AC outlet box 1 2 3 4 5 4 Use the power cord clamps to prevent the power plugs from coming unplugged. Attach the power clamps removed in Step 1. 5 Connect the plug at the other end of each of the power cords (AC input cables) (4m) connected in Step 3 to the outlet.
Chapter 6 Cable Connection > 6.7 Power Cord Connection CAUTION • Do not overload an electrical outlet. Doing so may lead to electric shock or fire. Unplug • If the ETERNUS DX60/DX80/DX90 is not going to be used for a long period of time, it is advisable to unplug all power cords to avoid any chance of fire to the ETERNUS DX60/DX80/ DX90 and its peripherals. 6 Turn the main line switch of the AC outlet box to the "On" position (marked "I").
Chapter 6 Cable Connection > 6.7 Power Cord Connection 6.7.3 When 2U AC Outlet Box is Installed The following explains how to connect the power cord when 2U AC outlet box is installed. IMPORTANT To help with power cord management and prevent incorrect connections, attach labels to the power cords and make a note of connection origins and destinations. Procedure 1 Remove the power cord clamp from the AC outlet box. Loosen the two thumb screws on both sides of the power cord clamp to remove it.
Chapter 6 Cable Connection > 6.7 Power Cord Connection The following table and figure show the connection path of an AC outlet cable and connection figure respectively Table 6.
Chapter 6 Cable Connection > 6.7 Power Cord Connection Drive Enclosure 9 Drive Enclosure 8 Drive Enclosure 7 Drive Enclosure 6 Drive Enclosure 5 Drive Enclosure 4 Drive Enclosure 3 Drive Enclosure 2 PSU#0 Inlet PSU#1 Inlet Drive Enclosure 1 Controller Enclosure PSU#0 Inlet PSU#1 Inlet OUT4 OUT5 OUT6 OUT5 OUT6 OUT3 OUT3 OUT4 OUT1 OUT2 AC outlet box B OUT1 AC outlet box A OUT2 Connect between the OUTn of the AC outlet box A and the PSU#0 inlets of the ETERNUS DX60/DX80/DX90.
Chapter 6 Cable Connection > 6.7 Power Cord Connection 3 Use the power cord clamps to prevent the power plugs from coming unplugged. Attach the power cord clamps removed in Step 1. 4 Connect the power cords (AC input cables) (4m) supplied with the AC outlet box to the inlet of the AC outlet box. The AC outlet box is shipped with the power cord connected to the inlets.
Chapter 6 Cable Connection > 6.7 Power Cord Connection • Do not overload an electrical outlet. Doing so may lead to electric shock or fire. CAUTION Unplug • If the ETERNUS DX60/DX80/DX90 is not going to be used for a long period of time, it is advisable to unplug all power cords to avoid any chance of fire to the ETERNUS DX60/DX80/ DX90 and its peripherals. 5 Turn the main line switch of the AC outlet box to the "ON" position (marked "I").
Chapter 7 Setup This chapter explains how to set up the ETERNUS DX60/DX80/DX90. 7.
Chapter 7 Setup > 7.1 Setup Preparation ❏ IP address and subnet mask for the ETERNUS DX60/DX80/DX90's RMT port No default value is set. This setting is required if the remote support connection is to be independent of the customer network. When enabling the RMT port of a Slave CM for dual controller model, two IP addresses are required. ❏ Gateway IP address No default value is set. ❏ IP address for maintenance work Prepare an IP address for maintenance work.
Chapter 7 Setup > 7.1 Setup Preparation ❏ Attaching the Network Settings label Attach the completed Network Settings label on the label plate in the label holder on the rear upper side. Network Settings label Network Setting : . . . : : . . . . . . : . . . IP address of MNT port IP address of FST Subnet Mask IP address of RMT port Label holder Plate Tag Pull out the plate while holding the tag. Figure 7.
Chapter 7 Setup > 7.2 Basic Setup ❏ Settings for the PC Perform the following procedure to set up the PC. Procedure 1 Set the IP address and subnet mask of the PC. Set the following values. IP address: 192.168.1.2 Subnet mask: 255.255.255.0 2 Check the settings of the Web browser. Proxy server and Cache: Disable Java Script, style sheets, and cookies: Enable 3 Connect the PC to the MNT port of the ETERNUS DX60/DX80/DX90 Controller 0 (CM#0) directly with a LAN cable (for operation management).
Chapter 7 Setup > 7.2 Basic Setup 7.2.1 Initial Setup Start Graphical User Interface (GUI) from the Web browser of the connected PC, and perform the initial setup of the ETERNUS DX60/DX80/DX90 in the following order. • • • • • • Set Date and Time Set Storage System Name Change Password Modify FC Port Mode (Only for ETERNUS DX90) Set Port Parameters Setup Network Environment The initial setup procedure is as follows: For the setup details, refer to "ETERNUS DX60/DX80/ DX90 Web GUI User Guide".
Chapter 7 Setup > 7.2 Basic Setup The confirmation screens for site certification may be displayed when starting up GUI using SSL (https). However, this should not cause any problems. Accept the site certification and continue the process. The following shows an example when using Internet Explorer 7. The display contents vary according to your web browser. There is a problem with this website's security certificate.
Chapter 7 Setup > 7.2 Basic Setup 2 Set date and time. Set the date and time of the internal clock of the ETERNUS DX60/DX80/DX90. 2-1 Set the necessary parameters, and click the [Next >] button. Figure 7.3 [Set Date and Time] screen A confirmation screen appears. 2-2 Click the [OK] button. The date and time setting is set, and the [Set Storage System Name] screen appears. 3 Set the machine name. Set the name of ETERNUS DX60/DX80/DX90.
Chapter 7 Setup > 7.2 Basic Setup 3-1 Set the necessary parameters, and click the [Next >] button. Figure 7.4 [Set Storage System Name] screen A confirmation screen appears. 3-2 Click the [OK] button. The machine name is set, and the [Change Password] screen appears. 4 Change the password. Change the initial account password. 4-1 Set the necessary parameters in [Set Password], and click the [Next >] button. Figure 7.5 [Change Password] screen A confirmation screen appears.
Chapter 7 Setup > 7.2 Basic Setup 5 Modify the FC Port Mode. (Only for ETERNUS DX90) Change the port mode of the Fibre Channel port (Channel Adapter (CA) or Remote Adapter (RA)). 5-1 Set the "Port Mode(After)" to the appropriate port mode, and click the [Next >] button. IMPORTANT Figure 7.6 • Select "CA" when using the port to connect to the server. Select "RA" when using the port for REC.
Chapter 7 Setup > 7.2 Basic Setup ■ For Fibre Channel On the [Set FC Port Parameters] screen, set the information (detailed Fibre Channel port information) for the connection between the FC ports of the ETERNUS DX60/DX80/DX90 and server, or between the FC ports of the local and remote devices. (1)Select a port and specify the necessary items in "Port Settings", and click the [Next >] button. Figure 7.7 [Set FC Port Parameters] screen (for the "FC-CA" Port Mode) A confirmation screen appears.
Chapter 7 Setup > 7.2 Basic Setup ■ For iSCSI On the [Set iSCSI Port Parameters] screen, set the information for the connection (detailed iSCSI port information) between the ETERNUS DX60/DX80 iSCSI port and the server. (1)Select a port and specify the necessary items in "Select Port", and click the [Next >] button. Figure 7.8 [Set iSCSI Port Parameters] screen A confirmation screen appears. (2)Click the [OK] button. The port parameters are set, and the [Setup Network Environment] screen appears.
Chapter 7 Setup > 7.2 Basic Setup ■ For SAS On the [Set SAS Port Parameters] screen, set the information for the connection (detailed SAS port information) between the ETERNUS DX60/DX80 SAS port and the server. (1)Select a port and specify the necessary items in "Port Settings", and click the [Next >] button. Figure 7.9 [Set SAS Port Parameters] screen A confirmation screen appears. (2)Click the [OK] button. The port parameters are set, and the [Setup Network Environment] screen appears.
Chapter 7 Setup > 7.2 Basic Setup • Disabling unused protocols is a standard security measure. If the following "Interface" fields are set to "Disable", network access to the ETERNUS DX60/DX80/DX90 via the services that use these protocols is blocked. - "http", "https" To block GUI access. - "telnet", "SSH" To block CLI access. - "Maintenance", "Maintenance-Secure" To block monitoring software access. - "ICMP" To block "ping" requests.
Chapter 7 Setup > 7.2 Basic Setup 8 Finish the initial setup. 8-1 Click the [Finish] button. Figure 7.11 [Finish] screen of the initial setup The [Initial Setup] completes. IMPORTANT Device setting operation cannot be continued if the IP address is changed. Logon again with the new IP address is required.
Chapter 7 Setup > 7.2 Basic Setup For setting-related details, refer to the "ETERNUS DX60/DX80/DX90 Web GUI User Guide". Also refer to the "ETERNUS DX Disk storage systems Server Connection Guide" as required. Refer "ETERNUS DX60/DX80/DX90 Web GUI User Guide "ETERNUS DX Disk storage systems Server Connection Guide (Fibre Channel)" "ETERNUS DX Disk storage systems Server Connection Guide (iSCSI)" "ETERNUS DX Disk storage systems Server Connection Guide (SAS)" Procedure 1 Start Configuration Wizard.
Chapter 7 Setup > 7.2 Basic Setup CAUTION Do • Data may not be recovered if a disk fails because RAID0 configuration is not redundant. RAID1, RAID1+0, RAID5, RAID5+0 , and RAID6 are recommended as the RAID level. Do Not • RAID groups, volumes, and hot spares are factory set. Disks which contain RAID groups or volumes, or disks which are hot spares should not be moved to another slot. 2-1 Select the RAID group creating method on the [Create RAID Group] screen, and click the [Next >] button.
Chapter 7 Setup > 7.2 Basic Setup 2-2 Set the necessary items, and click the [Create] button. The following is a setting example when "Create RAID Group (Disks are assigned automatically)" is selected. Figure 7.13 [Create RAID Group] screen A confirmation screen appears. 2-3 Click the [OK] button. The RAID group is created, and the [Create Volume] screen appears.
Chapter 7 Setup > 7.2 Basic Setup 3 Create a volume. Create a volume (area in the disks in the RAID group) in a RAID group. IMPORTANT CAUTION If the factory default settings are to be used, this setting is not required. When settings are desired, delete the factory settings (logical volumes and LUN mappings) and then create your own logical volumes. For setting deletion details, refer to the "ETERNUS DX60/DX80/DX90 Web GUI User Guide". Do Not • RAID groups, volumes, and hot spares are factory set.
Chapter 7 Setup > 7.2 Basic Setup A confirmation screen appears. 3-2 Click the [OK] button. The volume is created, and the [Define Host] screen appears. 4 Set up the host. Specify information for the server being connected to the ETERNUS DX60/DX80/DX90. Setting screens will vary depending on the ETERNUS DX60/DX80/DX90 model. IMPORTANT When the Host Affinity function is not used, the host setting is not required.
Chapter 7 Setup > 7.2 Basic Setup ■ For iSCSI On the [Setup iSCSI Host] screen, set the iSCSI name, IP address, and other items for the server being connected to the ETERNUS DX60/DX80. (1)Click the [Add] button on the [Setup iSCSI Host] screen (2)Specify an iSCSI name, IP address, server name, host response, and CHAP password. Figure 7.16 [Setup iSCSI Host] screen (3)Specify the other necessary items, and click the [Add] button.
Chapter 7 Setup > 7.2 Basic Setup ■ For SAS On the [Setup SAS Host] screen, set the SAS address, and other items for the server being connected to the ETERNUS DX60/DX80. (1)Click the [Add] button on the [Setup SAS Host] screen (2)Specify a SAS address, server name, and host response. Figure 7.17 [Setup SAS Host] screen (3)Specify the other necessary items, and click the [Add] button. The target SAS host is displayed in the "Registered SAS Host List" field.
Chapter 7 Setup > 7.2 Basic Setup 5-2 Enter the affinity group name in [Affinity Group Setting] and specify a volume number or volume name corresponding to the Logical Unit Number (LUN) in [Define LUN Mapping], and click the [Set] button. Figure 7.18 [Configure Affinity Group] screen A confirmation screen appears. 5-3 Click the [OK] button. The affinity group is created, and the affinity group list is displayed. 5-4 Click the [Next >] button. The [Define LUN Mapping] screen appears.
Chapter 7 Setup > 7.2 Basic Setup 6 Configure a LUN mapping. Set a volume to be recognized by the server. ■ When the Host Affinity function is used Assign an affinity group to each server that is to be connected to the port. (1)Select the port to be set from the "Port List" field, and click the [Edit] button. Figure 7.19 [Define LUN Mapping] screen 1 (when the Host Affinity function is used) (2)Assign the affinity group to the server, and click the [Set] button. Figure 7.
Chapter 7 Setup > 7.2 Basic Setup ■ When the Host Affinity function is not used Correspond the volume number to the LUN that can be recognized by the server for ports. (1)Select the port and click the [Edit] button to change the setting. Figure 7.21 [Define LUN Mapping] screen 1 (when the Host Affinity function is not used) (2)Change the setting as required, and click the [Set] button. Figure 7.22 [Define LUN Mapping] screen 2 (when the Host Affinity function is not used) A confirmation screen appears.
Chapter 7 Setup > 7.2 Basic Setup 7 Finish Configuration Wizard. 7-1 Click the [OK] button. Configuration Wizard finishes. End of procedure 7.2.3 Hot Spare Registration Register the hot spare for the failure of a disk. IMPORTANT • Check the factory settings and register a hot spare as required. • System disks cannot be registered as hot spares. The following two types of Hot spare are available: • Global Hot spare This is available for any RAID group.
Chapter 7 Setup > 7.2 Basic Setup CAUTION Do Not • RAID groups, volumes, and hot spares are factory set. Disks which contain RAID groups or volumes, or disks which are hot spares should not be moved to another slot. This section explains the procedure for the setup using GUI. For the setup using the CLI commands, refer to "ETERNUS DX60/DX80/DX90 CLI User Guide". For setting-related details, refer to the "ETERNUS DX60/DX80/DX90 Web GUI User Guide".
Chapter 7 Setup > 7.2 Basic Setup Procedure 1 In the GUI screen, click [Assign Hot Spare] under the [RAID Group Management] menu on the [Volume Settings] tab. The [Assign Hot Spare] screen appears. 2 Select the hot spare type and the disk to be used as hot spare, and click the [Assign] button. The following is a setting example when "Global Hot Spare" is selected. When selecting "Dedicated Hot Spare" as the hot spare type, "Select an existing RAID Group" appears. Figure 7.
Chapter 7 Setup > 7.3 Advanced Copy Setup 7.3 Advanced Copy Setup This section explains how to activate the Advanced Copy functions for use in a GUI, CLI, or VSS environment by registering a purchased ETERNUS SF Snap/Clone License, ETERNUS SF AdvancedCopy Manager Local Copy License, or Advanced Copy Feature (ETLL6CPU, ETLL8CPU) license. For details on usage and overview of the Advanced Copy function, refer to "1.3.3 Advanced Copy" (page 39).
Chapter 7 Setup > 7.3 Advanced Copy Setup • When the Advanced Copy Feature is purchased at the same time as the ETERNUS DX60/DX80 (base unit), this procedure is not necessary because the license is registered as a factory setting. Attach the license label plate provided with the Advanced Copy Feature to the rack rail near the ETERNUS DX60/DX80 which holds its license, for future reference.
Chapter 7 Setup > 7.3 Advanced Copy Setup 1-2 Access the license issuance URL, and click the "ETERNUS DX60/DX80/DX90 Advanced Copy License" link under the [Select a product to register]. For the URL of the web-site, refer to "ETERNUS DX60/DX80/DX90 Disk storage system Feature activation licenses". IMPORTANT The actual contents of the license key issuance screen that is described here may differ according to the time that the Advanced Copy Feature is purchased.
Chapter 7 Setup > 7.3 Advanced Copy Setup Enter and select the following items. - Email Enter the destination E-mail address to which the license key notification E-mail is to be sent. Do CAUTION • Make sure not to enter a wrong E-mail address. - Select your system Select ETERNUS DX60 or ETERNUS DX80. - 10 digit Serial number of the System Enter the serial number of the ETERNUS DX60/DX80.
Chapter 7 Setup > 7.3 Advanced Copy Setup IMPORTANT 2 Make sure to take a note of the displayed license key. Check the contents of the notification E-mail. Check that the [Serial number] (device serial number) that is described in the notification E-mail is correct. IMPORTANT 3 If the serial number that is described in the notification E-mail is wrong, contact your sales representative as soon as possible. Write down the license key on the provided license label plate.
Chapter 7 Setup > 7.3 Advanced Copy Setup 7.3.2 Registering the Advanced Copy License Key Register the license key according the following procedure. Procedure 1 Register the Advanced Copy license key. 1-1 Start GUI. 1-2 Click the [Register Copy License] under the [Advanced Copy Management] menu on the [Volume Settings] tab in the GUI screen. The [Register Copy License] screen appears. 1-3 Input the obtained license key in the "License Key" field, and click the [Register Copy License] button.
Chapter 7 Setup > 7.4 Monitoring Setup 7.3.3 Advanced Copy Settings For settings and operations to use the Advanced Copy functions, refer to "ETERNUS DX60/ DX80/DX90 Web GUI User Guide" or "ETERNUS DX60/DX80/DX90 CLI User Guide". For operation settings when using ETERNUS VSS Hardware Provider, refer to the ETERNUS VSS Hardware Provider manual. Refer 7.
Chapter 7 Setup > 7.4 Monitoring Setup 2 Click [Setup Event Notification] under the [System Settings] menu on the [Global Settings] tab in the GUI screen. The [Setup Event Notification] screen appears. 3 Select the necessary items in "Setting based on Severity". Figure 7.30 [Setup Event Notification] screen (Setting based on Severity) 4 Click the "Error Severity Level" link. The [Error Severity Level] screen appears. 5 Select the necessary items in "Error Severity Level". Figure 7.
Chapter 7 Setup > 7.4 Monitoring Setup 6 Click the "Warning Level" link. The [Warning Level] screen appears. 7 Select the necessary items in "Warning Level". Figure 7.32 [Setup Event Notification] screen (Warning Level) 8 Click the "Informational Level" link. The [Informational Level] screen appears. 9 Select the necessary items in "Informational Level". Figure 7.
Chapter 7 Setup > 7.4 Monitoring Setup 10 After the necessary settings have completed, click the [Set] button. A confirmation screen appears. 11 Click the [OK] button. The specified event notification setting is enabled. End of procedure 7.4.2 E-mail Notification Setup If an error occurs in the ETERNUS DX60/DX80/DX90, the event (error information, etc.) is reported to a specified address. The procedure to set the E-mail notification is as follows: Procedure 1 2 Start GUI.
Chapter 7 Setup > 7.4 Monitoring Setup 5 Set the necessary items in the [Mail Server Settings] area. Figure 7.35 [Setup E-Mail Notification] screen (Mail Server Settings) 6 After finishing the necessary settings, click the [Set] button. A confirmation screen appears. 7 Click the [OK] button. The specified send E-mail setting is registered. 8 Click the [Send Test E-mail] button to check that an E-mail can be sent to the specified E-mail destination address. Figure 7.
Chapter 7 Setup > 7.4 Monitoring Setup Also, for events that are detected by ServerView when monitoring the device, refer to "Appendix B Events detected by ServerView" (page 229). Procedure 1 Set the network environment of the ETERNUS DX60/DX80/DX90. When the ETERNUS DX60/DX80/DX90 and ServerView management device are in different subnet environments, set the Gateway IP address and destination network address in the [Setup Network Environment] screen of GUI. 1-1 Start GUI.
Chapter 7 Setup > 7.4 Monitoring Setup 2-3 Enter a new destination for the SNMP Trap, and click the [Add New Destination] button. - Enter the IP address of the ServerView management device (SNMP Manager) in "IP Address". - Enter the Community name to transfer the SNMP Trap to (if not specified, "public" is used) in "Community Name". Figure 7.38 [Trap] screen The new destination for the SNMP is added in the "Set Destination of SNMP Traps" field. 2-4 Click the [Set] button. A confirmation screen appears.
Chapter 7 Setup > 7.4 Monitoring Setup 3-2 Select the checkbox of "The ServerView control code is added to the comment line of the MIB definition file" in "Option", and click the [Download] button. Figure 7.39 [Download MIB File] screen A confirmation screen appears. 3-3 Click the [OK] button. The MIB definition file for SeverView monitoring is downloaded. A screen to save the downloaded MIB definition file appears. 3-4 Save the downloaded file. 4 Set ServerView.
Chapter 7 Setup > 7.4 Monitoring Setup 5-3 Click the [Send] button. Figure 7.40 [Perform SNMP Trap Test] screen A confirmation screen appears. 5-4 Click the [OK] button. The SNMP Trap Test is performed. 5-5 Confirm that the SNMP notification (Item fault) is displayed. The Item fault message (hardware failure report) displayed by this sending test does not show actual failure. If a message is not displayed, check that the network has no trouble, and the settings for the ETERNUS DX60/DX80/DX90 is correct.
Chapter 7 Setup > 7.4 Monitoring Setup Start GUI and check if ServerView management device's IP address is set correctly in the Trap setting of [Setup SNMP Agent]. End of procedure 7.4.4 Remote Support Setup When using remote support service, set to report any ETERNUS DX60/DX80/DX90 problems to the remote support center. Remote support service enables problems to be found and resolved quickly. The following explains how to set the device for remote support.
Chapter 7 Setup > 7.5 Server Connection Setup 3 Set each item under "Customer Information" and "Communication Environment Information" in the [Setup Remote Support] screen. Figure 7.41 [Setup Remote Support] screen 4 Click the [Set] button. The set information is sent to the Remote Support center, and the connection between the ETERNUS DX60/DX80/DX90 and Remote Support center is checked. The result of connection check is sent to "Mail Address". End of procedure 7.
Chapter 7 Setup > 7.6 System Status Check 7.6 System Status Check Check the following status using GUI or CLI. • ETERNUS DX60/DX80/DX90 parts status • RAID group status • Volume status This section explains the procedure using GUI. For the setup using the CLI commands, refer to "ETERNUS DX60/DX80/DX90 CLI User Guide". For status check details, refer to the "ETERNUS DX60/DX80/DX90 Web GUI User Guide".
Chapter 7 Setup > 7.6 System Status Check ■ Component status display The status of the ETERNUS DX60/DX80/DX90 can be checked by general status in the upper left of GUI screen. When the general status image is , the ETERNUS DX60/DX80/DX90 is in normal status. When the general status image is other than ( , , etc.), an abnormality has been detected in the ETERNUS DX60/DX80/DX90. Check the status of each component on the Storage System Status screen.
Chapter 7 Setup > 7.6 System Status Check ■ Display RAID group status On the RAID Group Status screen of GUI, the status of RAID groups that you have registered is displayed. Check if RAID configuration is set correctly. Figure 7.43 RAID Group Status screen ■ Display volume status On the Volume Status screen of GUI, the status of volumes that you have registered is displayed. Check if volumes are set correctly. Figure 7.
Chapter 8 Installing Optional Products The following optional products may be installed while the ETERNUS DX60/DX80/DX90 is running (hot-expansion procedures). • Disk • Drive Enclosure This chapter explains how to install these optional products. Be sure to read "ETERNUS DX60/DX80/DX90 Disk storage system Using Optional Products" before performing any of these installation procedures. Refer 8.
Chapter 8 Installing Optional Products > 8.1 Disk Installation ■ About static electricity CAUTION Do • When handling disks, make sure to wear a wrist strap. Failure to discharge static electricity may cause device failure. Do not remove it until the operation is complete. • Leave the disk in its package until ready to install it. • Do not touch the circuitry on boards or soldered parts when handling the disks.
Chapter 8 Installing Optional Products > 8.1 Disk Installation 8.1.3 Disk Installation Positions This section explains the disk installation positions. • 3.5" disks 3.5" disks can be installed in the front of the 3.5" type controller enclosure or 3.5" type drive enclosure, as shown in Figure 8.1. Slot#8 Slot#9 Slot#10 Slot#11 Slot#4 Slot#5 Slot#6 Slot#7 Slot#0 Slot#1 Slot#2 Slot#3 Figure 8.1 Position of 3.5" disk slots Figure 8.2 8.1.
Chapter 8 Installing Optional Products > 8.1 Disk Installation Do CAUTION • If additional disks are installed in a way other as described herein, damage and/or device failure or electrical shock may occur. • Disks which contain RAID groups or volumes, or disks which are hot spares should not be moved to another slot. Do Not • Do not install disks that are for use in other devices. ■ For 3.
Chapter 8 Installing Optional Products > 8.1 Disk Installation 5 Remove the dummy disk unit from the slot in which the disk is to be installed. Hook your fingers and push into the holes of the dummy disk unit, and pull it straight out of the disk slot. Dummy disk unit IMPORTANT 6 The removed dummy disk unit should be retained for future use. Install the new disk. 6-1 Press the catch on the disk lock lever to unlock it.
Chapter 8 Installing Optional Products > 8.1 Disk Installation 6-3 Swing the lock lever in the direction of the arrow, until the lock clicks shut. Lock lever IMPORTANT Make sure that the lock lever hooks have engaged the slot protrusions. Lock lever hooks have engaged Lock lever hooks have not engaged Slot protrusion Slot protrusion Hook Hook 6-4 Check that the newly installed disk’s DISK READY/FAULT LED lights up green after approximately 30 seconds.
Chapter 8 Installing Optional Products > 8.1 Disk Installation ■ For 2.5" disks Procedure 1 Refer to "ETERNUS DX60/DX80/DX90 Disk storage system Package Contents" and check that no items are missing. "ETERNUS DX60/DX80/DX90 Disk storage system Package Contents" Refer 2 3 Check that all components of the ETERNUS DX60/DX80/DX90 are in normal status, using the Storage System Status screen of GUI. Wear a wrist strap. For how to wear a wrist strap, refer to "3.6 Wearing the Wrist Strap" (page 81).
Chapter 8 Installing Optional Products > 8.1 Disk Installation 5-2 Insert the disk all the way into in the slot, making sure that it is firmly seated and keeping the lock lever open. IMPORTANT Hold the disk with both hands to protect against jarring. 5-3 Swing the lock lever in the direction of the arrow, until the lock clicks shut. Lock lever 5-4 Check that the newly installed disk’s DISK READY LED lights up green after approximately 30 seconds. 6 Repeat Step 4 and Step 5 for each additional disk.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation 8.2 Drive Enclosure Installation This section describes how to install a drive enclosure in the ETERNUS DX60/DX80/DX90. 8.2.1 Drive Enclosure Handling Instructions ■ About condensation CAUTION Do • When moving a drive enclosure from a cold place, such as an unconditioned store house in winter, to a warmer place such as an airconditioned room, the severe temperature change may result in condensation forming.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation 8.2.2 Installable Drive Enclosures Refer to "A.2.2 Drive Enclosures" (page 225) for a list of drive enclosures that may be installed. • ETERNUS DX60 drive enclosures Up to one 3.5" type drive enclosure can be installed in the 3.5" disk model. Drive enclosures cannot be installed in the ETERNUS DX60 2.5" disk model. • ETERNUS DX80/DX90 drive enclosures - Up to nine 3.5" type drive enclosures can be installed in the 3.5" disk model.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation • When expanding multiple drive enclosures, by installing them into the rack or expanding settings via GUI, make sure to expand one by one. • Do not install the miniSAS cable (for drive enclosures) or power cord when installing the drive enclosure in the rack. Connect them in Step 5 and Step 6 in "8.2.4 Additional Drive Enclosure Installation". • Install the disk after expanding the drive enclosure.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation Screw holders M5 screws M5 screws Bracket L (Rear rack pillars) Screw holders Screw holders M5 screws (Front rack pillars) Bracket R M5 screws Screw holders The four M5 screw positions for the rack rails (brackets) are determined relative to the drive enclosure base line. The M5 screws should be inserted in the 1st and 3rd holes above the base line.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation 7 Fix the drive enclosure in the rack. ■ 3.5" type drive enclosure Use the two thumb screws at the front of the drive enclosure to fasten it in the rack. (Rear rack pillars) Thumb screw ■ 2.5" type drive enclosure • Use the thumb screw to fasten the front right of the drive enclosure to the rack. • Do not fix the front left of the drive enclosure to the rack at this point.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation 8 Attach the "DE_No." label to the following positions. Attach the label starting at the top (miniSAS cable (for drive enclosures) connection order) on the controller enclosure. • 3.5" type drive enclosure At the right side of the front of the drive enclosure Between the EXP#0 and EXP#1 expanders at the rear of the drive enclosure DE_No. label • 2.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation 9 Check the settings of the AUTO POWER switch and the MODE SELECT switch. • AUTO POWER switch Check that the AUTO POWER switch is set to the OFF position. Do not change to ON. • MODE SELECT switch Check that the MODE SELECT switch is set to the ON position. Do not change to OFF. 3.5’’ type drive enclosure 2.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation 8.2.4 Additional Drive Enclosure Installation This section describes how to install a drive enclosure for the ETERNUS DX60/DX80/DX90. Procedure 1 2 First check that all the components of the ETERNUS DX60/DX80/DX90 are in normal status, using the Storage System Status screen of GUI. Wear a wrist strap. For how to wear a wrist strap, refer to "3.6 Wearing the Wrist Strap" (page 81).
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation The screen that indicates a procedure for adding drive enclosures appears. Figure 8.4 5 [Add Drive Enclosure] - Workflow Sequence screen 1 Connect the miniSAS cable (for drive enclosures). Refer to "6.6 MiniSAS Cable Connection (For Drive Enclosures)" (page 117) for the appropriate procedure. 6 Connect the drive enclosure’s power cord. The drive enclosure turns on. Refer to "6.
Chapter 8 Installing Optional Products > 8.2 Drive Enclosure Installation 9 Check the drive enclosure's AUTO POWER switch is OFF, and click the [Next >] button. Figure 8.5 [Add Drive Enclosure] - Workflow Sequence screen 2 The expansion completion screen is displayed. 10 Click the [OK] button. The [Add Drive Enclosure] screen is closed. 11 For 2.5" type drive enclosures, attach the supplied flange cover. For details on how to attach the flange cover, refer to "3.
Chapter 9 Operation and Maintenance This chapter describes various operation, maintenance and troubleshooting related matters. 9.1 Checking the ETERNUS DX60/DX80/DX90 Status Check the status of the ETERNUS DX60/DX80/DX90 regularly by checking its LEDs, or status display function of GUI or CLI. CAUTION Do • Impending trouble may be indicated by the warning message LEDs of the ETERNUS DX60/DX80/DX90. The LEDs should be checked regularly to prevent any serious trouble from occurring.
Chapter 9 Operation and Maintenance > 9.3 Maintenance Service 9.3 Maintenance Service This section explains the ETERNUS DX60/DX80/DX90 maintenance service. IMPORTANT 9.3.1 When performing service maintenance, the maintenance engineer connects a PC used for maintenance to the device. Also, the maintenance engineer may require information that is necessary for performing maintenance operations. If the maintenance engineer has any require, we ask that they be handled.
Chapter 9 Operation and Maintenance > 9.4 Post Start-of-Operation Changes to the Configuration 9.4.1 Replacing Fibre Channel Cards The following explains how to replace a failed Fibre Channel card. Note that this is only an overview of the replacement procedure. Refer to the relevant manuals for more details.
Chapter 9 Operation and Maintenance > 9.4 Post Start-of-Operation Changes to the Configuration 9.4.2 Replacing LAN Cards / iSCSI HBAs The following explains how to replace a failed LAN card or iSCSI HBA. Note that this is only an overview of the replacement procedure. Refer to the relevant manuals for more details.
Chapter 9 Operation and Maintenance > 9.4 Post Start-of-Operation Changes to the Configuration 9.4.3 Replacing SAS Cards The following explains how to replace a failed SAS card. Note that this is only an overview of the replacement procedure. Refer to the relevant manuals for more details.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting 9.5 Troubleshooting If you notice anything unusual during operation, then refer to "9.5.1 Check List" (page 206) to check the ETERNUS DX60/DX80/DX90 status, accurately record the status on the form given in "9.5.2 Trouble Record" (page 213), and contact your maintenance engineer. • • • • • • • • • • • • • 9.5.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting ■ When the ETERNUS DX60/DX80/DX90 is turned off Check the following points. If none of these resolve the problem, leave the ETERNUS DX60/ DX80/DX90 alone and contact your maintenance engineer.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting Procedure 1 Press the controller enclosure’s Power Switch for four seconds or more to turn off the ETERNUS DX60/DX80/DX90. Drive enclosures with no miniSAS cables connected will remain on. 2 Connect the miniSAS cable while the drive enclosure is on. 3 Press the controller enclosure’s Power Switch to turn on the ETERNUS DX60/DX80/ DX90.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting ■ When an IP address is forgotten Set a new IP address according to the following procedure. Procedure 1 Remove the front cover of the 3.5" type controller enclosure. Remove the flange cover of the 2.5" type controller enclosure. For details on how to attach the front cover, refer to "3.3 Attaching and Removing the Front Cover" (page 75). For details on how to attach the flange cover, refer to "3.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting 2 Press the IP RESET Switch twice in a row within two seconds. The setting information related to the network is returned to the factory default. 3 Set up the network environment, via GUI or CLI. IMPORTANT 4 Make sure that all of the desired network services are set to "Enable". • If the GUI is to be used, set "http" and/or "https" to "Enable". If "Disable" is set, GUI access to the ETERNUS DX60/DX80/DX90 is not allowed.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting Refer to the following sections for details on these functions. • "1.3.4 RAID Migration" (page 42) • "1.3.5 Logical Device Expansion" (page 44) • "1.3.6 LUN Concatenation" (page 45) ■ When I/O access is slow Check the following: • Check that the ambient temperature does not exceed the operating environment conditions. If so, Nearline SAS disk performance may be reduced.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting ■ When the server does not recognize the disks When the server does not recognize the disks, points to be checked depend on the situation. • All servers do not recognize the disks • Check the status of the ETERNUS DX60/DX80/DX90 and other devices such as network devices connecting the server and the ETERNUS DX60/DX80/DX90, and ensure that there are no problems with the power supply. • Check if the drive enclosure is turned on.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting 9.5.2 Trouble Record If trouble occurs, record the ETERNUS DX60/DX80/DX90 conditions in Figure 9.2 and Figure 9.3, and contact your maintenance engineer. Trouble Record 1: Please identify your ETERNUS DX60/DX80/DX90 Disk storage system: (Check the Manufacturer’s label) MODEL SER.NO.
Chapter 9 Operation and Maintenance > 9.5 Troubleshooting 7: Other Figure 9.
Appendix A Specifications This appendix explains the specifications of the ETERNUS DX60/DX80/DX90 and its optional products. A.1 Device Specifications This section explains the ETERNUS DX60/DX80/DX90 specifications. A.1.1 ETERNUS DX60 Specifications Table A.1 ETERNUS DX60 specifications 3.5" disk model Item Fibre Channel model Model name 2.
Appendix A Specifications > A.1 Device Specifications 3.5" disk model Singlecontroller model Item 3.5" Nearline SAS disks 750GB/1TB/2TB (7,200rpm) – – 146GB/300GB (10,000rpm) 2.
Appendix A Specifications > A.1 Device Specifications A.1.2 ETERNUS DX80 Specifications Table A.2 ETERNUS DX80 specifications 3.5" disk model Singlecontroller model Dualcontroller model Singlecontroller model Dualcontroller model Fibre Channel model ET08E12AU ET08F12AU ET08E22AU ET08F22AU ET08E12BU ET08F12BU ET08E22BU ET08F22BU iSCSI model ET08L12AU ET08L22AU – SAS model ET08S12AU ET08S22AU – Item Model name 2.
Appendix A Specifications > A.1 Device Specifications 3.5" disk model Singlecontroller model Item Power Dualcontroller model AC 100 – 120V, AC 200 – 240V Phase Single Maximum power consumption Maximum heat generation Noise emission Singlecontroller model Voltage Frequency Environmental conditions 2.
Appendix A Specifications > A.1 Device Specifications A.1.3 ETERNUS DX90 Specifications Table A.3 ETERNUS DX90 specifications 3.5" disk model Item Model name Fibre Channel model 2.5" disk model Singlecontroller model Dualcontroller model Singlecontroller model Dualcontroller model ET09E14AU ET09E24AU ET09E14BU ET09E24BU Supported RAID level RAID0, RAID1, RAID1+0, RAID5, RAID5+0, RAID6 Maximum physical capacity (*1) SAS disks 72.0TB Maximum logical capacity (*2) SAS disks 52.7TB 26.
Appendix A Specifications > A.1 Device Specifications 3.5" disk model Singlecontroller model Item Environmental conditions Noise emission Dualcontroller model Temperature 2.5" disk model Singlecontroller model Dualcontroller model 5 – 40°C (operating) Humidity 20 – 80%RH (operating) Sound Power Level (LWAd) (*6) Sound Pressure Level (LpAm) (*6) 5.9B 6.0B 42.0dB(A) 43.5dB(A) *1: Physical capacity is calculated based on the assumption 1TB=1,0004Byte, 1GB=1,0003Byte.
Appendix A Specifications > A.2 Optional Product Specifications A.2 Optional Product Specifications This section explains the specifications of the ETERNUS DX60/DX80/DX90 optional products. A.2.1 Disks ■ For 3.5" disks • 300GB/15krpm SAS disks Table A.4 300GB/15krpm SAS disk specifications Item Model name Specification ETLSA3HAU, ETLSA3MAU, ETLSA3PAU Drive Interface Serial Attached SCSI (3Gbit/s) Storage medium 3.
Appendix A Specifications > A.2 Optional Product Specifications • 600GB/15krpm SAS disks Table A.6 600GB/15krpm SAS disk specifications Item Model name Specification ETLSA6HAU, ETLSA6MAU, ETLSA6PAU Drive Interface Serial Attached SCSI (3Gbit/s) Storage medium 3.5" hard disk Capacity 600GB Speed 15,000rpm Dimensions (W × D × H) 109 × 196 × 27 (mm) Weight 0.9 kg *1: Specification per one disk. *2: The capacity is calculated based on the assumption 1GB=1,0003Byte. • 750GB/7.
Appendix A Specifications > A.2 Optional Product Specifications • 2TB/7.2krpm Nearline SAS disks Table A.9 2TB/7.2krpm Nearline SAS disk specifications Item Model name Specification ETLNS2HAU, ETLNS2MAU, ETLNS2PAU Drive Interface Serial Attached SCSI (3Gbit/s) Storage medium 3.5" hard disk Capacity 2TB Speed 7,200rpm Dimensions (W × D × H) 109 × 196 × 27 (mm) Weight 1.0 kg *1: Specification per one disk. *2: The capacity is calculated based on the assumption 1GB=1,0003Byte.
Appendix A Specifications > A.2 Optional Product Specifications ■ For 2.5" disks • 146GB/10krpm SAS disks Table A.12 146GB/10krpm SAS disk specifications Item Model name Specification ETLSA1HBU, ETLSA1MBU, ETLSA1PBU Drive Interface Serial Attached SCSI (3Gbit/s) Storage medium 2.5" hard disk Capacity 146GB Speed 10,000rpm Dimensions (W × D × H) 19 × 142 × 81 (mm) Weight 0.3 kg *1: Specification per one disk. *2: The capacity is calculated based on the assumption 1GB=1,0003Byte.
Appendix A Specifications > A.2 Optional Product Specifications • 200GB SSDs Table A.15 200GB SSD specifications Item Specification Model name ETLSS2HBU, ETLSS2MBU, ETLSS2PBU Drive Interface Serial Attached SCSI (3Gbit/s) Storage medium Flash memory Capacity 200GB Dimensions (W × D × H) 19 × 142 × 81 (mm) Weight A.2.2 0.3 kg *1: Specification per one SSD. *2: The capacity is calculated based on the assumption 1GB=1,0003Byte. Drive Enclosures ■ For 3.5" type drive enclosures Table A.
Appendix A Specifications > A.2 Optional Product Specifications ■ For 2.5" type drive enclosures Table A.17 2.5" type drive enclosure specifications Item Model name Specification ETLDE2BU Drive interface Serial Attached SCSI (3Gbit/s) Number of disk slots 24 Number of expanders 2 Dimensions (W × D × H) 483 × 650 × 88 (mm) [2U] Maximum weight Power 1 35kg Voltage AC 100 – 120V, AC 200 – 240V Phase Single Frequency A.2.
Appendix A Specifications > A.2 Optional Product Specifications ■ For 2U Table A.19 AC outlet box (2U) specifications Item Specification Model name Power ETLAC2U2U Voltage AC 200 – 240V Phase Single Frequency Inlet Outlet 50Hz/60Hz Connection type and length Straight-through ⇔ NEMA L6-20P / 4m Number of inlets 2 Connection type and length Plug: IEC320-C13 ⇔ IEC320-C14 / 3m Number of outlets 12 Dimensions (U) 2U Weight A.2.4 11kg Expansion Controller ■ For 3.5'' disk model Table A.
Appendix A Specifications > A.2 Optional Product Specifications A.2.5 Expansion Expander ■ For 3.5'' disk model Table A.22 Expansion expander specifications Item Specification Model name ETLEXAU Dimensions (W × D × H) 205 × 375 × 42 (mm) Maximum weight miniSAS cable Connection type and length 1.8kg SFF-8088 ⇔ SFF-8088 / 0.75m Number of cables 1 ■ For 2.5'' disk model Table A.
Appendix B Events detected by ServerView This chapter explains the ETERNUS DX60/DX80/DX90 events detected by ServerView. Table B.1 ServerView event list Event Severity Specific TRAP number Meaning Item fault CRITICAL 2 Hardware error occurred. Item warning MAJOR 5 Preventive Maintenance Hardware has been detected. Sensor status changed CRITICAL 6 Temperature abnormality has been detected. Maintenance required CRITICAL 7 An error that requires maintenance has been detected.
Appendix C About Using of Open Sources The SMI-S interface of the ETERNUS DX60/DX80/DX90 uses the following open sources. • OpenPegasus • OpenSSL ■ OpenPegasus The OpenPegasus copyright and license information is as follows. This information can also be newed on http://www.openpegasus.org/ Copyright (c) 2000, 2001, 2002 BMC Software; Hewlett-Packard Development Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems. Copyright (c) 2003 BMC Software; Hewlett-Packard Development Company, L.P.; IBM Corp.
Appendix C About Using of Open Sources > ■ OpenSSL Both the following OpenSSL license and SSLeay license apply to the OpenSSL license. This information can also be newed on http://openssl.org OpenSSL License --------------==================================================================== Copyright (c) 1998-2008 The OpenSSL Project. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1.
Appendix C About Using of Open Sources > Original SSLeay License ----------------------Copyright (C) 1995-1998 Eric Young (eay@cryptsoft.com) All rights reserved. This package is an SSL implementation written by Eric Young (eay@cryptsoft.com). The implementation was written so as to conform with Netscapes SSL. This library is free for commercial and non-commercial use as long as the following conditions are aheared to.
Index A AC automatic linkage mode ....................... 79 AC outlet box (1U) Components .................................... 71 Installing in a rack .............................. 99 Specifications .................................. 226 AC outlet box (2U) Components .................................... 71 Installing in a rack ............................. 102 Specifications .................................. 227 ACT LED Fibre Channel model ............. 52, 53, 60, 61 iSCSI model ........................
Index Dummy disk unit 2.5" disk ........................................ 189 3.5" disk ........................................ 187 G General status ...................................... 181 E H EC (Equivalent Copy) .............................. 40 Eco-mode ............................................ 48 Host Affinity function ................................ 47 E-mail setup ........................................ 172 Host interface........................................
Index LAN port Fibre Channel model ............. 52, 53, 60, 61 iSCSI model ..................................... 54 SAS model ...................................... 55 License Key Advanced Copy ................................ 163 LINK LED Fibre Channel model ............. 52, 53, 60, 61 iSCSI model ..................................... 54 SAS model ...................................... 55 O Obtaining License Key Advanced Copy ................................ 164 OPC (One Point Copy) ...................
Index Q QuickOPC ........................................... 40 R RAID group .......................................... 32 Creation......................................... 150 Status display .................................. 182 RAID level ........................................... 26 Recommended RAID level .................... 31 Reliability, performance, capacity ............ 31 RAID migration ...................................... 42 RAID0 ................................................ 27 RAID1 ..
Index T Trouble record ..................................... 213 U UNIT READY/FAULT LED Controller (Fibre Channel model) ........ 52, 53, 60, Controller (iSCSI model)....................... Controller (SAS model) ........................ Expander .................................... 66, 61 54 55 70 User capacity ........................................ 30 V Volume ............................................... 32 Creation......................................... 153 Status display ..................
ETERNUS DX60/DX80/DX90 Disk storage system User Guide P3AM-3042-06ENZ0 Date of issuance: April 2010 Issuance responsibility: FUJITSU LIMITED • The contents of this manual may be updated without notice. • While the contents of this manual are the product of all due care and diligence, no responsibility can be accepted for operational problems arising from any errors or missing information, or other use of the information contained in this manual.
