Installation and Configuration Guide HP StorageWorks HSG80 ACS Solution Software V8.8 for Linux X86 Product Version: 8.8-1 First Edition (March 2005) Part Number: AA–RV1LA–TE This guide provides installation and configuration instructions and reference material for operation of the HSG80 ACS Solution Software V8.8-1 for Linux X86.
© Copyright 2000-2005 Hewlett-Packard Development Company, L.P. Hewlett-Packard Company makes no warranty of any kind with regard to this material, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. Hewlett-Packard shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing, performance, or use of this material.
contents Contents About this Guide. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Related Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Enabling/Disabling the CCL in SCSI-2 Mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Enabling the CCL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Disabling the CCL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Enabling/Disabling CCL in SCSI-3 Mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Determining Connections . . . . . . . . . . . .
Contents Partition Planning Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Defining a Partition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Guidelines for Partitioning Storagesets and Disk Drives . . . . . . . . . . . . . . . . . . . . . Keep these points in mind when planning partitions for storagesets and disks:. Changing Characteristics Through Switches . . . . . . . . . . . . . . . . . . . . . .
Contents About the Network Connection for the Agent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Mapping SCSI-generic Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configuring the Agent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configuring the Agent with RAID Array V8.8-1 Configuration Menu . . . . . . . . . . . . Choosing a Password. . . . . . . . . . . . . . . . .
Contents Configuring a Striped Mirrorset. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configuring a Single-Disk Unit (JBOD) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configuring a Partition. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Assigning Unit Numbers and Unit Qualifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Storage Map Template 8 for the Model 4314R Disk Enclosure . . . . . . . . . . . . . . . . . . . . . 188 Storage Map Template 9 for the Model 4354R Disk Enclosure . . . . . . . . . . . . . . . . . . . . . 191 B Installing, Configuring, and Removing the Client. . . . . . . . . . . . . . . . . . . . . . . . . . .193 Why Install the Client? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194 Before You Install the Client . . . . . . . . . . .
Contents 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 Limiting host access in transparent failover mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 Limiting host access in multiple-bus failover mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 Placement of the worldwide name label on the Model 2200 enclosure. . . . . . . . . . . . . . 52 Placement of the worldwide name label on the BA370 enclosure. . . . . . . . . . . .
Contents 4 5 6 7 8 9 10 11 12 13 14 10 PTL addressing, single-bus configuration, six Model 4310R enclosures . . . . . . . . . . . . 65 PTL addressing, dual-bus configuration, three Model 4350R enclosures . . . . . . . . . . . . 67 PTL addressing, single-bus configuration, six Model 4314R enclosures . . . . . . . . . . . . 68 PTL addressing, dual-bus configuration, three Model 4354A enclosures. . . . . . . . . . . . 70 Comparison of container types. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
about this guide About this Guide This installation guide for HSG80 ACS Solution Software V8.8-1 for Linux X86 provides information to help you: About this Guide ■ Plan the storage array subsystem. ■ Install and configure the storage array subsystem on individual operating system platforms.
About this Guide Overview This section covers the following topics: ■ "Intended Audience", page 12 ■ "Related Documentation", page 12 Intended Audience This book is intended for use by systems administrators and systems technicians who are experienced with the following: ■ Storage ■ Networking Related Documentation In addition to this guide, HP provides corresponding information: 12 ■ ACS V8.
About this Guide Solution software host support includes the following platforms: — IBM AIX — HP-UX — Linux (Red Hat x86, SuSE x86) — Novell NetWare — Open VMS — Sun Solaris — Tru64 UNIX — Windows NT/2000/Windows Server 2003 (32-bit) Additional support required by HSG80 ACS Solution Software V8.
About this Guide Chapter Content Summary Table 1 below summarizes the content of the chapters. Table 1: Summary of chapter contents Chapters 14 Descriptions 1. Planning a Subsystem This chapter focuses on technical terms and knowledge needed to plan and implement storage array subsystems. 2. Planning Storage Configurations Plan the storage configuration of your subsystem, using individual disk drives (JBOD), storageset types (mirrorsets, stripesets, and so on), and/or partitioned drives.
About this Guide Table 1: Summary of chapter contents (Continued) Chapters Descriptions 7. Backing Up, Cloning, and Moving Data Description of common procedures that are not mentioned elsewhere in this guide. ■ Backing Up Subsystem Configuration ■ Cloning Data for Backup ■ Moving Storagesets Appendix A. Subsystem Profile Templates This appendix contains storageset profiles to copy and use to create your system profiles.
About this Guide Conventions Conventions consist of the following: ■ "Document Conventions" ■ "Symbols in Text" ■ "Symbols on Equipment" Document Conventions This document follows the conventions in Table 2.
About this Guide Tip: Text in a tip provides additional help to readers by providing nonessential or optional techniques, procedures, or shortcuts. Note: Text set off in this manner presents commentary, sidelights, or interesting points of information. Symbols on Equipment The following equipment symbols may be found on hardware for which this guide pertains.
About this Guide Power supplies or systems marked with these symbols indicate the presence of multiple sources of power. WARNING: To reduce the risk of personal injury from electrical shock, remove all power cords to completely disconnect power from the power supplies and systems. Any product or assembly marked with these symbols indicates that the component exceeds the recommended weight for one individual to handle safely.
About this Guide Rack Stability Rack stability protects personnel and equipment. WARNING: To reduce the risk of personal injury or damage to the equipment, be sure that: ■ The leveling jacks are extended to the floor. ■ The full weight of the rack rests on the leveling jacks. ■ In single rack installations, the stabilizing feet are attached to the rack. ■ In multiple rack installations, the racks are coupled. ■ Only one rack component is extended at any time.
About this Guide Getting Help If you still have a question after reading this guide, contact an HP authorized service provider or access our web site http://www.hp.com. HP Technical Support Telephone numbers for worldwide technical support are listed on the following HP web site http://www.hp.com/support/. From this web site, select the country of origin. Note: For continuous quality improvement, calls may be recorded or monitored.
About this Guide HP Authorized Reseller For the name of your nearest HP authorized reseller: ■ In the United States, call 1-800-345-1518 ■ In Canada, call 1-800-263-5868 ■ Elsewhere, see the HP web site for locations and telephone numbers http://www.hp.com. HSG80 ACS Solution Software V8.
About this Guide Configuration Flowchart A three-part flowchart (Figures 1-3) is shown on the following pages. Refer to these charts while installing and configuring a new storage subsystem. All references in the flowcharts pertain to pages in this guide, unless otherwise indicated. 22 HSG80 ACS Solution Software V8.
About this Guide See the unpacking instructions on shipping box Unpack subsystem Plan a subsystem Chapter 1 Plan storage configurations Chapter 2 Prepare host system Chapter 3 Make local connection page 120 Controller pair Single controller Cable controller page 123 Cable controllers page 130 Configure controller page 123 Configure controllers page 131 Installing SWCC ? No A Yes B See Figure 3 on page 25 See Figure 2 on page 24 Figure 1: General configuration flowchart (panel 1) HSG80 ACS
About this Guide A Configure devices page 138 Create storagesets and partitions: Stripeset, page 140 Mirrorset, page 140 RAIDset, page 141 Striped mirrorset, page 142 Single (JBOD) disk, page 143 Continue creating units until you have you have completed your planned configuration. Partition, page 143 Assign unit numbers page 145 Setting configuration options page 146 Verify storage setup page 149 Figure 2: General configuration flowchart (panel 2) 24 HSG80 ACS Solution Software V8.
About this Guide B Install Agent Chapter 4 Install Client Appendix B Create storage See SWCC online help Verify storage setup page 149 Figure 3: Configuring storage with SWCC flowchart (panel 3) HSG80 ACS Solution Software V8.
About this Guide 26 HSG80 ACS Solution Software V8.
Planning a Subsystem 1 This chapter provides information that helps you plan how to configure the storage array subsystem. This chapter focuses on the technical terms and knowledge needed to plan and implement storage subsystems. Note: This chapter frequently references the command line interface (CLI). For the complete syntax and descriptions of the CLI commands, see the HP StorageWorks HSG60 and HSG80 Array Controller and Array Controller Software Command Line Interface Reference Guide.
Planning a Subsystem Defining Subsystems This section describes the terms this controller and other controller. It also presents graphics of the Model 2200 and BA370 enclosures. Note: The HSG80 controller uses the BA370 or Model 2200 enclosure. Controller Designations A and B The terms A, B, “this controller,” and “other controller,” respectively are used to distinguish one controller from another in a two-controller (also called dual-redundant) subsystem.
Planning a Subsystem BA370 Enclosure 1 2 3 4 5 2 1 3 4 5 6 6 EMU PVA Controller A Controller B Cache module A Cache module B CXO6283B Figure 5: Location of controllers and cache modules in a BA370 enclosure Controller Designations “This Controller” and “Other Controller” Some CLI commands use the terms “this” and “other” to identify one controller or the other in a dual-redundant pair. These designations are a shortened form of “this controller” and “other controller.
Planning a Subsystem Model 2200 Enclosure 1 2 CXO7366A 1 This controller 2 Other controller Figure 6: “This controller” and “other controller” for the Model 2200 enclosure BA370 Enclosure 1 2 CXO6468D 1 Other controller 2 This controller Figure 7: “This controller” and “other controller” for the BA370 enclosure 30 HSG80 ACS Solution Software V8.
Planning a Subsystem What is Failover Mode? Failover is a way to keep the storage array available to the host if one of the controllers becomes unresponsive. A controller can become unresponsive because of a controller hardware failure. Failover keeps the storage array available to the hosts by allowing the surviving controller to take over total control of the subsystem. Transparent Failover Mode Transparent failover mode has the following characteristics: ■ Hosts do not know failover has taken place.
Planning a Subsystem Host 1 Host 2 Switch or hub Switch or hub Host port 1 active D0 Host 3 D1 Host port 1 standby Host port 2 standby Controller A D100 Controller B D101 D120 Host port 2 active CXO7036A Figure 8: Transparent failover—normal operation 32 HSG80 ACS Solution Software V8.
Planning a Subsystem Host 1 Host 2 Switch or hub Switch or hub Host port 1 active D0 Host 3 D1 Host port 1 not available Host port 2 active Controller A D100 Controller B not available D101 D120 Host port 2 not available CXO7035A Figure 9: Transparent failover—after failover from Controller B to Controller A HSG80 ACS Solution Software V8.
Planning a Subsystem Selecting a Cache Mode The cache module supports read, read-ahead, write-through, and write-back caching techniques. The cache technique is selected separately for each unit. For example, you can enable only read and write-through caching for some units while enabling only write-back caching for other units. Read Caching When the controller receives a read request from the host, it reads the data from the disk drives, delivers it to the host, and stores the data in its cache module.
Planning a Subsystem Write-Through Caching Write-through caching is enabled when write-back caching is disabled. When the controller receives a write request from the host, it places the data in its cache module, writes the data to the disk drives, then notifies the host when the write operation is complete. This process is called write-through caching because the data actually passes through—and is stored in—the cache memory on its way to the disk drives. HSG80 ACS Solution Software V8.
Planning a Subsystem Enabling Mirrored Caching In mirrored caching, half of each controller’s cache mirrors the companion controller’s cache, as shown in Figure 10. The total memory available for cached data is reduced by half, but the level of protection is greater.
Planning a Subsystem Note: Linux requires the controllers be set to SCSI-3 mode. HSG80 ACS Solution Software V8.
Planning a Subsystem The CCL does the following: ■ Allows the RAID Array to be recognized by the host as soon as it is attached to the SCSI bus and configured into the operating system. ■ Serves as a communications device for the HS-Series Agent. The CCL identifies itself to the host by a unique identification string. In dual-redundant controller configurations, the commands described in the following sections alter the setting of the CCL on both controllers. The CCL is enabled only on host port 1.
Planning a Subsystem Note: In ACS V8.8-1, the maximum number of supported connections is 96. Naming Connections It is highly recommended that you assign names to connections that have meaning in the context of your particular configuration.
Planning a Subsystem Host 1 "AQUA" Host 2 "BLACK" Host 3 "BROWN" FCA1 FCA1 FCA1 Switch or hub Switch or hub Connection AQUA1A1 Host port 1 active Host port 2 standby Controller A Connection BLACK1B2 Connection BROWN1B2 D0 D1 Host port 1 standby D100 Controller B D101 D120 Host port 2 active NOTE: FCA = Fibre Channel Adapter CXO7081B Figure 11: Connections in separate-link, transparent failover mode configurations 40 HSG80 ACS Solution Software V8.
Planning a Subsystem Host 1 "GREEN" Host 2 "ORANGE" Host 3 "PURPLE" FCA1 FCA1 FCA1 Switch or hub Connections GREEN1A1 ORANGE1A1 PURPLE1A1 Host port 1 active D0 Host port 2 standby Controller A D1 Host port 1 standby Connections GREEN1B2 ORANGE1B2 PURPLE1B2 D100 Controller B D101 D120 Host port 2 active NOTE: FCA = Fibre Channel Adapter CXO7079B Figure 12: Connections in single-link, transparent failover mode configurations HSG80 ACS Solution Software V8.
Planning a Subsystem Assigning Unit Numbers The controller keeps track of the unit with the unit number. The unit number can be from 0–199 prefixed by a D, which stands for disk drive. A unit can be presented as different LUNs to different connections.
Planning a Subsystem For example, if all host connections use the default offset values, unit D2 is presented to a port 1 host connection as LUN 2 (unit number of 2 minus offset of 0). Unit D102 is presented to a port 2 host connection as LUN 2 (unit number of D102 minus offset of 100). Figure 13 shows how units are presented as different LUNs, depending on the offset of the host.
Planning a Subsystem An additional factor to consider when assigning unit numbers and offsets is SCSI version. If the SCSI_VERSION switch of the SET THIS_CONTROLLER/OTHER_CONTROLLER command is set to SCSI-3, the CCL is presented as LUN 0 to every connection, superseding any unit assignments. The interaction between SCSI version and unit numbers is explained further in the next section. In addition, the access path to the host connection must be enabled for the connection to access the unit.
Planning a Subsystem Assigning Host Connection Offsets and Unit Numbers in SCSI-2 Mode Some operating systems expect or require a disk unit to be at LUN 0. In this case, it is necessary to specify SCSI-2 mode. If SCSI_VERSION is set to SCSI-2 mode, the CCL floats, moving to the first available LUN location, depending on the configuration.
Planning a Subsystem What is Selective Storage Presentation? Selective Storage presentation is a feature of the HSG80 controller that enables you to control the allocation of storage space and shared access to storage across multiple hosts. This is also known as Restricting Host Access. In a subsystem that is attached to more than one host or if the hosts have more than one adapter, it is possible to reserve certain units for the exclusive use of certain host connections.
Planning a Subsystem Note: These techniques also work for a single controller. Restricting Host Access by Separate Links In transparent failover mode, host port 1 of controller A and host port 1 of controller B share a common Fibre Channel link. Host port 2 of controller A and host port 2 of controller B also share a common Fibre Channel link.
Planning a Subsystem Host 1 "AQUA" Host 2 "BLACK" Host 3 "BROWN" FCA1 FCA1 FCA1 Switch or hub Switch or hub Connection AQUA1A1 Host port 1 active Host port 2 standby Controller A Connection BLACK1B2 Connection BROWN1B2 D0 D1 Host port 1 standby D100 Controller B D101 D120 Host port 2 active NOTE: FCA = Fibre Channel Adapter CXO7081B Figure 14: Limiting host access in transparent failover mode Restricting Host Access by Disabling Access Paths If more than one host is on a link (that is
Planning a Subsystem For example: In Figure 15, restricting the access of unit D101 to host 3, the host named BROWN can be done by enabling only the connection to host 3. Enter the following commands: SET D101 DISABLE_ACCESS_PATH=ALL SET D101 ENABLE_ACCESS_PATH=BROWN1B2 If the storage subsystem has more than one host connection, carefully specify the access path to avoid providing undesired host connections access to the unit.
Planning a Subsystem Restricting Host Access by Offsets Offsets establish the start of the range of units that a host connection can access. For example: In Figure 14, assume both host connections on port 2 (connections BLACK1B2 and BROWN1B2) initially have the default port 2 offset of 100. Setting the offset of connection BROWN1B2 to 120 presents unit D120 to host BROWN as LUN 0. SET BROWN1B2 UNIT_OFFSET=120 Host BROWN cannot see units lower than its offset, so it cannot access units D100 and D101.
Planning a Subsystem Note: HP recommends that you provide access to only specific connections, even if there is just one connection on the link. This way, if new connections are added, they do not have automatic access to all units.
Planning a Subsystem Worldwide Names (Node IDs and Port IDs) A worldwide name—also called a node ID—is a unique, 64-bit number assigned to a subsystem prior to shipping. The node ID belongs to the subsystem itself and never changes. Each subsystem’s node ID ends in zero, for example 5000-1FE1-FF0C-EE00. The controller port IDs are derived from the node ID.
Planning a Subsystem 1 2 Node ID (Worldwide name) Checksum 1 WWN INFORMATION P/N: WWN: S/N: NNNN – NNNN – NNNN – NNNN Checksum: NN 2 CXO6873B Figure 17: Placement of the worldwide name label on the BA370 enclosure Caution: Each subsystem has its own unique worldwide name (node ID). If you attempt to set the subsystem worldwide name to a name other than the one that came with the subsystem, the data on the subsystem is not accessible.
Planning a Subsystem 54 HSG80 ACS Solution Software V8.
Planning Storage Configurations 2 This chapter provides information to help you plan the storage configuration of your subsystem. Storage containers are individual disk drives (JBOD), storageset types (mirrorsets, stripesets, and so on), and/or partitioned drives. Use the guidelines found in this section to plan the various types of storage containers needed.
Planning Storage Configurations Where to Start The following procedure outlines the steps to follow when planning your storage configuration. See Appendix A to locate the blank templates for keeping track of the containers being configured. 1. Determine your storage requirements. Use the questions in "Determining Storage Requirements", page 58, to help you. 2. Review configuration rules. See "Configuration Rules for the Controller", page 59. 3.
Planning Storage Configurations — Use the Command Line Interpreter (CLI) commands. This method allows you flexibility in defining and naming your storage containers. See the HP StorageWorks HSG60 and HSG80 Array Controller and Array Controller Command Line Interface Reference Guide. HSG80 ACS Solution Software V8.
Planning Storage Configurations Determining Storage Requirements It is important to determine your storage requirements.
Planning Storage Configurations Configuration Rules for the Controller The following list defines maximum configuration rules for the controller: ■ 128 visible LUNs/200 assignable unit numbers — In SCSI-3 mode, if the CCL is enabled, the result is 126 visible LUNs and two CCLs. Note: In SCSI-2 mode, if the Command Console LUN (CCL) is enabled, and in SCSI-3 mode where the CCL is always enabled, the result is 127 visible LUNs and one CCL. ■ 1.
Planning Storage Configurations Tip: If you are redeploying disks that have been operating under a prior version of ACS into a newly established container, as a best practice, always initialize the devices and the new container before proceeding with subsystem activities to avoid operational and performance issues. Configuring Large Storagesets When creating large storagesets, the logical geometry presented by the array controller may be outside the limits of the operating system.
Planning Storage Configurations 2. Calculate the new values for the geometry by dividing the quantity which is too large by the same amount that is used to multiply one of the other quantities. Quite often the cylinders count is too large, and the heads count can be adjusted upward. During this process, ensure that the formula cylinders x heads x sectors remains constant.
Planning Storage Configurations Addressing Conventions for Device PTL The HSG80 controller has six SCSI device ports, each of which connects to a SCSI bus. In dual-controller subsystems, these device buses are shared between the two controllers. (The StorageWorks Command Console calls the device ports “channels.”) The standard BA370 enclosure provides a maximum of four SCSI target identifications (ID) for each device port. If more target IDs are needed, expansion enclosures can be added to the subsystem.
Planning Storage Configurations ■ L—Designates the logical unit (LUN) of the device. For disk devices the LUN is always 0. 1 02 Disk 10200 LUN 00 Target 02 Port 1 Figure 19: PTL naming convention The controller can either operate with a BA370 enclosure or with a Model 2200 controller enclosure combined with Model 4214R, Model 4254, Model 4310R, Model 4350R, Model 4314R, or Model 4354R disk enclosures. The controller operates with BA370 enclosures that are assigned ID numbers 0, 2, and 3.
Planning Storage Configurations Examples - Model 2200 Storage Maps, PTL Addressing The Model 2200 controller enclosure can be combined with the following: ■ Model 4214R disk enclosure—Ultra2 SCSI with 14 drive bays, single-bus I/O module. ■ Model 4254 disk enclosure—Ultra2 SCSI with 14 drive bays, dual-bus I/O module. Note: The Model 4214R uses the same storage maps as the Model 4314R, and the Model 4254 uses the same storage maps as the Model 4354R disk enclosures.
Planning Storage Configurations ■ Model 4354R disk enclosure—Ultra3 SCSI with 14 drive bays, dual-bus I/O module. Table 7 shows the addresses for each device in a three-shelf, dual-bus configuration. A maximum of three Model 4354R disk enclosures can be used with each Model 2200 controller enclosure. Note: Appendix A contains storageset profiles you can copy and use to create your own system profiles.
Planning Storage Configurations 10 SCSI ID 00 01 02 03 04 05 08 10 11 12 DISK ID Disk40100 Disk40200 Disk40300 Disk40400 Disk40500 Disk40800 Disk41000 Disk41200 9 Disk41100 8 Bay 1 2 3 4 5 6 7 8 9 10 SCSI ID 00 01 02 03 04 05 08 10 11 12 DISK ID Disk11000 7 Disk10800 6 Disk10500 5 Disk10400 4 Disk10300 3 Disk10200 2 Disk10100 1 Disk10000 Bay Disk40000 Model 4310R Disk Enclosure Shelf 4 (Single-bus) Disk11100 Disk11200 Bay 1 2 3 4 5 6
Planning Storage Configurations Table 5: PTL addressing, dual-bus configuration, three Model 4350R enclosures Model 4350R Disk Enclosure Shelf 1 (Single-bus) SCSI Bus B 9 SCSI ID 00 01 02 03 04 00 01 02 03 DISK ID Disk20300 8 Disk20200 7 Disk20100 6 Disk20000 5 Disk10400 4 Disk10300 3 Disk10200 2 Disk10100 1 Disk10000 Bay 10 04 Disk20400 SCSI Bus A Model 4350R Disk Enclosure Shelf 2 (Single-bus) SCSI Bus B 9 SCSI ID 00 01 02 03 04 00 01 02 03 DISK ID Disk40300
Planning Storage Configurations Table 6: PTL addressing, single-bus configuration, six Model 4314R enclosures 14 SCSI ID 00 01 02 03 04 05 08 09 10 11 12 13 14 15 DISK ID Disk60100 Disk60200 Disk60300 Disk60400 Disk60500 Disk60800 Disk60900 Disk61000 Disk61100 Disk61200 Disk61500 13 Disk61400 12 Disk61300 11 Bay 1 2 3 4 5 6 7 8 9 10 11 12 13 14 SCSI ID 00 01 02 03 04 05 08 09 10 11 12 13 14 15 DISK ID Disk51200 10 Disk51100 9 Disk51000 8
Planning Storage Configurations 01 02 03 04 05 08 09 10 11 12 13 14 15 DISK ID Disk20100 Disk20200 Disk20300 Disk20400 Disk20500 Disk20800 Disk20900 Disk21000 Disk21100 Disk21200 Disk21500 00 Bay 1 2 3 4 5 6 7 8 9 10 11 12 13 14 SCSI ID 00 01 02 03 04 05 08 09 10 11 12 13 14 15 DISK ID Disk31500 SCSI ID Disk21400 14 Disk31400 13 Disk21300 12 Disk31300 11 Disk31200 10 Disk31100 9 Disk31000 8 Disk30900 7 Disk30800 6 Disk30500 5 Di
Planning Storage Configurations Table 7: PTL addressing, dual-bus configuration, three Model 4354A enclosures.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Planning Storage Configurations Choosing a Container Type Different applications may have different storage requirements. You probably want to configure more than one kind of container within your subsystem. In choosing a container, you choose between independent disks (JBODs) or one of several storageset types, as shown in Figure 21. The independent disks and the selected storageset may also be partitioned. The storagesets implement RAID (Redundant Array of Independent Disks) technology.
Subsystem Profile Templates A This appendix contains storageset profiles to copy and use to create your profiles. It also contains an enclosure template to use to help keep track of the location of devices and storagesets in your shelves. Four (4) templates are needed for the subsystem. Note: The storage map templates for the Model 4310R and Model 4214R or 4314R reflect the physical location of the disk enclosures in the rack.
Subsystem Profile Templates Storageset Profile Type of Storageset: _____ Mirrorset __X_ RAIDset _____ Stripeset _____ Striped Mirrorset ____ JBOD Storageset Name Disk Drives Unit Number Partitions: Unit # Unit # Unit # Unit # Unit # Unit # Unit # Unit # RAIDset Switches: Reconstruction Policy Reduced Membership Replacement Policy ___Normal (default) __ _No (default) ___Best performance (default) ___Fast ___Yes, missing: ___Best fit ___None Mirrorset Switches: Replacement Policy C
Subsystem Profile Templates Unit Switches: Caching Read caching__________ Read-ahead caching_____ Write-back caching______ Write-through caching____ Access by following hosts enabled __________________________________________________ __________ __________________________________________________ __________ __________________________________________________ __________ __________________________________________________ __________ HSG80 ACS Solution Software V8.
Subsystem Profile Templates Storage Map Template 1 for the BA370 Enclosure Use this template for: ■ BA370 single-enclosure subsystems ■ first enclosure of multiple BA370 enclosure subsystems 1 2 Port 3 4 5 6 Power Supply Power Supply 3 D10300 D20300 D30300 D40300 D50300 D60300 Power Supply Power Supply 2 D30200 D40200 D50200 Targets D10200 D20200 D60200 Power Supply Power Supply 1 D10100 D20100 D30100 D40100 D50100 D60100 Power Supply Power Supply 0 D10000 D20000 176 D300
Subsystem Profile Templates Storage Map Template 2 for the Second BA370 Enclosure Use this template for the second enclosure of multiple BA370 enclosure subsystems.
Subsystem Profile Templates Storage Map Template 3 for the Third BA370 Enclosure Use this template for the third enclosure of multiple BA370 enclosure subsystems.
Subsystem Profile Templates Storage Map Template 4 for the Model 4214R Disk Enclosure Use this template for a subsystem with a three-shelf Model 4214R disk enclosure (single-bus). You can have up to six Model 4214R disk enclosures per controller shelf.
Subsystem Profile Templates Bay 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 SCSI ID 0 0 0 1 0 2 0 3 0 4 0 5 0 8 0 9 1 0 1 1 1 2 1 3 1 4 1 5 Disk30000 Disk30100 Disk30200 Disk30300 Disk30400 Disk30500 Disk30800 Disk30900 Disk31000 Disk31100 Disk31200 Disk31300 Disk31400 Disk31500 Model 4214R Disk Enclosure Shelf 3 (Single-bus) DISK ID 180 HSG80 ACS Solution Software V8.
Subsystem Profile Templates Storage Map Template 5 for the Model 4254 Disk Enclosure Use this template for a subsystem with a three-shelf Model 4254 disk enclosure (dual-bus). You can have up to three Model 4254 disk enclosures per controller shelf.
Subsystem Profile Templates continued from previous page Model 4254 Disk Enclosure Shelf 3 (Dual-bus) Bay 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 SCSI ID 0 0 0 1 0 2 0 3 0 4 0 5 0 8 0 0 0 1 0 2 0 3 0 4 0 5 0 8 Disk50100 Disk50200 Disk50300 Disk50400 Disk50500 Disk50800 Disk60000 Disk60100 Disk60200 Disk60300 Disk60400 Disk60500 Disk60800 DISK ID 182 Bus B Disk50000 Bus A HSG80 ACS Solution Software V8.
Subsystem Profile Templates Storage Map Template 6 for the Model 4310R Disk Enclosure Use this template for a subsystem with a six-shelf Model 4310R disk enclosure (single-bus). You can have up to six Model 4310R disk enclosures per controller shelf.
Subsystem Profile Templates Model 4310R Disk Enclosure Shelf 4 (Single-bus) 10 SCSI ID 00 01 02 03 04 05 08 10 11 12 DISK ID Disk41200 9 Disk41100 8 Disk41000 7 Disk40800 6 Disk40500 5 Disk40400 4 Disk40300 3 Disk40200 2 Disk40100 1 Disk40000 Bay Model 4310R Disk Enclosure Shelf 1 (Single-bus) 10 SCSI ID 00 01 02 03 04 05 08 10 11 12 DISK ID Disk11200 9 Disk11100 8 Disk11000 7 Disk10800 6 Disk10500 5 Disk10400 4 Disk10300 3 Disk10200 2 Disk10100
Subsystem Profile Templates Model 4310R Disk Enclosure Shelf 3 (Single-bus) 10 SCSI ID 00 01 02 03 04 05 08 10 11 12 DISK ID HSG80 ACS Solution Software V8.
Subsystem Profile Templates Storage Map Template 7 for the Model 4350R Disk Enclosure Use this template for a subsystem with a three-shelf Model 4350R disk enclosure (single-bus). You can have up to three Model 4350R disk enclosures per controller shelf.
Subsystem Profile Templates Model 4350R Disk Enclosure Shelf 4 (Single-bus) 10 SCSI ID 00 01 02 03 04 05 08 10 11 12 DISK ID HSG80 ACS Solution Software V8.
Subsystem Profile Templates Storage Map Template 8 for the Model 4314R Disk Enclosure Use this template for a subsystem with a six-shelf Model 4314R disk enclosure. You can have a maximum of six Model 4314R disk enclosures with each Model 2200 controller enclosure.
Subsystem Profile Templates Model 4314R Disk Enclosure Shelf 4 (Single-bus) 14 SCSI ID 00 01 02 03 04 05 08 09 10 11 12 13 14 15 DISK ID Disk41500 13 Disk41400 12 Disk41300 11 Disk41200 10 Disk41100 9 Disk41000 8 Disk40900 7 Disk40800 6 Disk40500 5 Disk40400 4 Disk40300 3 Disk40200 2 Disk40100 1 Disk40000 Bay Model 4314R Disk Enclosure Shelf 1 (Single-bus) 14 SCSI ID 00 01 02 03 04 05 08 09 10 11 12 13 14 15 DISK ID Disk11500 13 Disk11400 1
Subsystem Profile Templates Model 4314R Disk Enclosure Shelf 3 (Single-bus) 14 SCSI ID 00 01 02 03 04 05 08 09 10 11 12 13 14 15 DISK ID 190 Disk31500 13 Disk31400 12 Disk31300 11 Disk31200 10 Disk31100 9 Disk31000 8 Disk30900 7 Disk30800 6 Disk30500 5 Disk30400 4 Disk30300 3 Disk30200 2 Disk30100 1 Disk30000 Bay HSG80 ACS Solution Software V8.
Subsystem Profile Templates Storage Map Template 9 for the Model 4354R Disk Enclosure Use this template for a subsystem with a three-shelf Model 4354R disk enclosure (dual-bus). You can have up to three Model 4354R disk enclosures per controller shelf.
Subsystem Profile Templates Model 4354R Disk Enclosure Shelf 3 (Dual-bus) SCSI Bus A SCSI Bus B 14 SCSI ID 00 01 02 03 04 05 08 00 01 02 03 04 05 08 DISK ID 192 Disk60800 13 Disk60500 12 Disk60400 11 Disk60300 10 Disk60200 9 Disk60100 8 Disk60000 7 Disk50800 6 Disk50500 5 Disk50400 4 Disk50300 3 Disk50200 2 Disk50100 1 Disk50000 Bay HSG80 ACS Solution Software V8.
Installing, Configuring, and Removing the Client B The following information is included in this appendix: ■ "Why Install the Client?", page 194 ■ "Before You Install the Client", page 195 ■ "Installing the Client", page 196 ■ "Installing the Integration Patch", page 197 ■ "Troubleshooting Client Installation", page 200 ■ "Adding Storage Subsystem and its Host to Navigation Tree", page 202 ■ "Removing Command Console Client", page 204 ■ "Where to Find Additional Information", page 206 HSG8
Installing, Configuring, and Removing the Client Why Install the Client? The Client monitors and manages a storage subsystem by performing the following tasks: 194 ■ Create mirrored device group (RAID 1) ■ Create striped device group (RAID 0) ■ Create striped mirrored device group (RAID 0+1) ■ Create striped parity device group (3/5) ■ Create an individual device (JBOD) ■ Monitor many subsystems at once ■ Set up pager notification HSG80 ACS Solution Software V8.
Installing, Configuring, and Removing the Client Before You Install the Client 1. Verify that you are logged into an account that is a member of the administrator group. 2. Check the software product description that came with the software for a list of supported hardware. 3. Verify that you have the SNMP service installed on the computer. SNMP must be installed on the computer for this software to work properly. The Client software uses SNMP to receive traps from the Agent.
Installing, Configuring, and Removing the Client Installing the Client The following restriction should be observed when installing SWCC on Windows NT 4.0 Workstations. If you select all of the applets during installation, the installation fails on the HSG60 applet and again on one of the HSG80 applets. The workaround is to install all of the applets you want except for the HSG60 applet and the HSG80 ACS 8.5 applet. You can then return to the setup program and install the one that you need. 1.
Installing, Configuring, and Removing the Client Installing the Integration Patch The integration patch determines which version of firmware the controller is using and launches the appropriate StorageWorks Command Console (SWCC) Storage Window within Insight Manager (CIM) V4.23. Should I Install the Integration Patch? Install this patch if your HSG80 controller uses ACS 8.6 or later. This patch enables you to use the controller’s SWCC Storage Window within CIM to monitor and manage the controller.
Installing, Configuring, and Removing the Client Caution: If you remove the integration patch, HSG80 Storage Window V2.1 no longer works and you need to reinstall HSG80 Storage Window V2.1. The integration patch uses some of the same files as the HSG80 Storage Window V2.1. Integrating Controller’s SWCC Storage Window with CIM You can open the controller’s Storage Window from within the Windows-based CIM V4.23 by doing the following: 1.
Installing, Configuring, and Removing the Client “Insight Manager Unable to Find Controller’s Storage Window” If you installed Insight Manager before SWCC, Insight Manager is unable to find the controller’s Storage Window. To find the controller’s Storage Window, perform the following procedure: 1. Double-click the Insight Agents icon (Start > Settings > Control Panel). A window is displayed showing you the active and inactive Agents under the Services tab. 2.
Installing, Configuring, and Removing the Client Troubleshooting Client Installation This section provides information on how to resolve some of the problems that may occur when installing the Client software: ■ ■ Invalid Network Port Assignments During Installation “There is no disk in the drive” Message Invalid Network Port Assignments During Installation SWCC Clients and Agents communicate by using sockets.
Installing, Configuring, and Removing the Client spagent 4999/tcp #HS-Series Client and Agent spagent3 4994/tcp #HSZ22 Client and Agent ccagent 4997/tcp #RA200 Client and Agent spagent2 4995/tcp #RA200 Client and Agent “There is no disk in the drive” Message When you install the Command Console Client, the software checks the shortcuts on the desktop and in the Start menu. The installation checks the shortcuts of all users for that computer, even if they are not currently logged on.
Installing, Configuring, and Removing the Client Adding Storage Subsystem and its Host to Navigation Tree The Navigation Tree enables you to manage storage over the network by using the Storage Window. If you plan to use pager notification, you must add the storage subsystem to the Navigation Tree. 1. Verify that you have properly installed and configured the HS-Series Agent on the storage subsystem host. 2. Click Start > Programs > Command Console > StorageWorks Command Console.
Installing, Configuring, and Removing the Client Figure 45: Navigation window showing storage host system “Atlanta” 6. Click the plus sign to expand the host icon. When expanded, the Navigation Window displays an icon for the storage subsystem. To access the Storage Window for the subsystem, double-click the Storage Window icon. Figure 46: Navigation window showing expanded “Atlanta” host icon HSG80 ACS Solution Software V8.
Installing, Configuring, and Removing the Client Note: You can create virtual disks by using the Storage Window. For more information on the Storage Window, refer to HP StorageWorks Command Console V2.5 User Guide. Removing Command Console Client Before you remove the Command Console Client from the computer, remove AES. This prevents the system from reporting that a service failed to start every time the system is restarted. Steps 2 through 5 describe how to remove the Command Console Client.
Installing, Configuring, and Removing the Client Note: This procedure removes only the Command Console Client (SWCC Navigation Window). You can remove the HSG80 Client by using the Add/Remove program. HSG80 ACS Solution Software V8.
Installing, Configuring, and Removing the Client Where to Find Additional Information You can find additional information about SWCC by referring to the online Help and to HP StorageWorks Command Console V2.5 User Guide. About the User Guide HP StorageWorks Command Console V2.5 User Guide contains additional information on how to use SWCC.
glossary Glossary This glossary defines terms pertaining to the ACS solution software. It is not a comprehensive glossary of computer terms. 8B/10B A type of byte definition encoding and decoding to reduce errors in data transmission patented by the IBM Corporation. This process of encoding and decoding data for transmission has been adopted by ANSI. adapter A device that converts the protocol and hardware interface of one bus type into another without changing the function of the bus.
Glossary association set A group of remote copy sets that share selectable attributes for logging and failover. Members of an association set transition to the same state simultaneously. For example, if one association set member assumes the failsafe locked condition, then other members of the association set also assume the failsafe locked condition. An association set can also be used to share a log between a group of remote copy set members that require efficient use of the log space.
Glossary built-in self-test A diagnostic test performed by the array controller software on the controller policy processor. byte A binary character string made up of 8 bits operated on as a unit. cache memory A portion of memory used to accelerate read and write operations. cache module A fast storage buffer CCL CCL-Command Console LUN, a “SCSI Logical Unit Number” virtual-device used for communicating with Command Console Graphical User Interface (GUI) software.
Glossary controller A hardware device that, with proprietary software, facilitates communications between a host and one or more devices organized in an array. The HSG80 family controllers are examples of array controllers. copying A state in which data to be copied to the mirrorset is inconsistent with other members of the mirrorset. See also normalizing. copying member Any member that joins the mirrorset after the mirrorset is created is regarded as a copying member.
Glossary DOC DWZZA-On-a-Chip. ASCSI bus extender chip used to connect a SCSI bus in an expansion cabinet to the corresponding SCSI bus in another cabinet (See DWZZA). driver A hardware device or a program that controls or regulates another device. For example, a device driver is a driver developed for a specific device that allows a computer to operate with the device, such as a printer or a disk drive.
Glossary ESD Electrostatic discharge. The discharge of potentially harmful static electrical voltage as a result of improper grounding. extended subsystem A subsystem in which two cabinets are connected to the primary cabinet. external cache battery See ECB. F_Port A port in a fabric where an N_Port or NL_Port may attach. fabric A group of interconnections between ports that includes a fabric element.
Glossary FCC Federal Communications Commission. The federal agency responsible for establishing standards and approving electronic devices within the United States. FCC Class A This certification label is on electronic devices that can only be used in a commercial environment within the United States. FCC Class B This certification label is on electronic devices that can be used in either a home or a commercial environment within the United States.
Glossary FRU Field replaceable unit. A hardware component that can be replaced at the customer location by service personnel or qualified customer service personnel. FRUTIL Field Replacement utility. full duplex (n) A communications system in which there is a capability for 2-way transmission and acceptance between two sites at the same time. full duplex (adj) Pertaining to a communications method in which data can be transmitted and received at the same time.
Glossary host compatibility mode A setting used by the controller to provide optimal controller performance with specific operating systems. This improves the controller performance and compatibility with the specified operating system. hot disks A disk containing multiple hot spots. Hot disks occur when the workload is poorly distributed across storage devices which prevents optimum subsystem performance. See also hot spots. hot spots A portion of a disk drive frequently accessed by the host.
Glossary interface A set of protocols used between components, such as cables, connectors, and signal levels. I/O Refers to input and output functions. I/O driver The set of code in the kernel that handles the physical I/O to a device. This is implemented as a fork process. Same as driver. I/O interface See interface. I/O module A 16-bit SBB shelf device that integrates the SBB shelf with either an 8-bit single ended, 16-bit single-ended, or 16-bit differential SCSI bus (see SBB).
Glossary logical unit A physical or virtual device addressable through a target ID number. LUNs use their target bus connection to communicate on the SCSI bus. logical unit number LUN. A value that identifies a specific logical unit belonging to a SCSI target ID number. A number associated with a physical device unit during a task I/O operations. Each task in the system must establish its own correspondence between logical unit numbers and physical devices. logon Also called login.
Glossary mirrored write-back caching A method of caching data that maintains two copies of the cached data. The copy is available if either cache module fails. mirrorset See RAID level 1. MIST Module Integrity Self-Test. multibus failover Allows the host to control the failover process by moving the units from one controller to another. N_port A port attached to a node for use with point-to-point topology or fabric topology. NL_port A port attached to a node for use in all topologies.
Glossary normalizing Normalizing is a state in which, block-for-block, data written by the host to a mirrorset member is consistent with the data on other normal and normalizing members. The normalizing state exists only after a mirrorset is initialized. Therefore, no customer data is on the mirrorset. normalizing member A mirrorset member whose contents are the same as all other normal and normalizing members for data that has been written since the mirrorset was created or lost cache data was cleared.
Glossary partition A logical division of a container, represented to the host as a logical unit. PCMCIA Personal Computer Memory Card Industry Association. An international association formed to promote a common standard for PC card-based peripherals to be plugged into notebook computers. The card commonly known as a PCMCIA card is about the size of a credit card. PDU Power distribution unit. The power entry device for HP StorageWorks cabinets.
Glossary private NL_Port An NL_Port which does not attempt login with the fabric and only communicates with NL_Ports on the same loop. program card The PCMCIA card containing the controller operating software. protocol The conventions or rules for the format and timing of messages sent and received. PTL Port-Target-LUN. The controller method of locating a device on the controller device bus. PVA module Power Verification and Addressing module.
Glossary RAID level 3/5 A RAID storageset that stripes data and parity across three or more members in a disk array. A RAIDset combines the best characteristics of RAID level 3 and RAID level 5. A RAIDset is the best choice for most applications with small to medium I/O requests, unless the application is write intensive. A RAIDset is sometimes called parity RAID. RAIDset See RAID level 3/5. RAM Random access memory.
Glossary remote copy set A bound set of two units, one located locally and one located remotely, for long-distance mirroring. The units can be a single disk, or a storageset, mirrorset, or RAIDset. A unit on the local controller is designated as the “initiator” and a corresponding unit on the remote controller is designated as the “target”. request rate The rate at which requests are arriving at a servicing entity. RFI Radio frequency interference.
Glossary SCSI ID number The representation of the SCSI address that refers to one of the signal lines numbered 0 through 15. SCSI-P cable A 68-conductor (34 twisted-pair) cable generally used for differential bus connections. SCSI port (1) Software: The channel controlling communications to and from a specific SCSI bus in the system. (2) Hardware: The name of the logical socket at the back of the system unit to which a SCSI device is connected.
Glossary StorageWorks A family of modular data storage products that allow customers to design and configure their own storage subsystems. Components include power, packaging, cabling, devices, controllers, and software. Customers can integrate devices and array controllers in HP StorageWorks enclosures to form storage subsystems. HP StorageWorks systems include integrated SBBs and array controllers to form storage subsystems.
Glossary tape inline exerciser (TILX) The controller diagnostic software to test the data transfer capabilities of tape drives in a way that simulates a high level of user activity. topology An interconnection scheme that allows multiple Fibre Channel ports to communicate with each other. For example, point-to-point, Arbitrated Loop, and switched fabric are all Fibre Channel topologies.
Glossary warm swap A device replacement method that allows the complete system to remain online during device removal or insertion. The system bus may be halted, or quiesced, for a brief period of time during the warm-swap procedure. Wide Ultra SCSI Fast/20 on a Wide SCSI bus. Worldwide name A unique 64-bit number assigned to a subsystem by the Institute of Electrical and Electronics Engineers (IEEE) and set by manufacturing prior to shipping. This name is referred to as the node ID within the CLI.
Glossary 228 HSG80 ACS Solution Software V8.
index A B Back up, Clone, Move Data 163 backup cloning data 165 subsystem configuration 164 Index C Index ADD CONNECTIONS transparent failover 42 ADD UNIT transparent failover 42 adding virtual disks 206 Adding a Client 116 adding a disk drive to the spareset configuration options 146 adding disk drives configuration options 146 Agent choosing passwords 116 configuring using config.
Index choosing for RAIDsets and stripesets 88 controlling stripesize 88 using to increase request rate 89 using to increase write performance 90 CHUNKSIZE 88 CLI commands installation verification 128, 137 CLI configuration example 154 CLI configurations 151 CLI prompt changing fabric topology 146 Client adding 116 removing 204 uninstalling 204 CLONE utility backup 165 cloning backup 165 Command Console Agent_restarting 117 command console LUN 36 SCSI-2 mode 45 SCSI-3 mode 44 comparison of container types
Index storageset and device profiles 73 creating and tuning filesystem 106 Creating Clones for Backup 165 creation file system 106 D Destroy/Nodestroy parameters 91 device switches changing fabric topology 149 devices changing switches fabric topology 148 configuration fabric topology 138, 139 creating a profile 73 disk drives adding fabric topology 146 adding to the spareset fabric topology 146 array 72 corresponding storagesets 93 dividing 83 removing from the spareset fabric topology 147 displaying the
Index HP authorized reseller 21 storage web site 20 technical support 20 HSG Agent configuration menu 115 install and configure 107 network connection 111 overview 110 I initialize switches changing fabric topology 149 CHUNKSIZE 88 geometry 91 NOSAVE_CONFIGURATION 90 SAVE_CONFIGURATION 90 Insight Manager 206 installation controller verification 128, 137 invalid network port assignments 200 solution software 104 there is no disk in the drive message 201 installation verification CLI commands 128, 137 integ
Index O offset LUN presentation 43 restricting host access transparent fafilover 50 SCSI version factor 44 online help SWCC 206 options for mirrorsets 86 for RAIDsets 86 initialize 88 other controller 29 P pager notification 206 configuring 206 partitions assigning a unit number fabric topology 145 defining 84 planning considerations 83 guidelines 84 passwords choosing 116 performance 79 Physical connection, making 102 planning 55 overview 73 striped mirrorsets 82 stripesets 76 Planning a subsystem 27 pla
Index disabling access paths transparent failover 48 separate links transparent failover 47 transparent failover 46 S SAVE_CONFIGURATION 90 saving configuration 90 SCSI version offset 44 SCSI-2 assigning unit numbers 44 command console lun 45 SCSI-3 assigning unit numbers 44 command console lun 44 Second enclosure of multiple-enclosure subsystem storage map template 2 177 selective storage presentation 46 SET CONNECTIONS transparent failover 42 setting controller configuration handling 90 single disk (JBO
Index creating a profile 73 moving 169 striped mirrorsets planning 82 planning considerations 81 stripesets distributing members across buses 77 planning 76 planning considerations 75 important points 76 Subsystem adding 116 subsystem saving configuration 90 subsystem configuration backup 164 SWCC 108 additional information 206 integrating 206 online help 206 switches changing 85 changing characteristics 85 CHUNKSIZE 88 enabling 85 mirrorsets 86 NOSAVE_CONFIGURATION 90 RAIDset 86 SAVE_CONFIGURATION 90 swit
Index V verification controller installation 128, 137 verification of installation controller 128, 137 virtual disks adding 206 W warning rack stability 19 symbols on equipment 17 web sites HP storage 20 236 where to start 27 worldwide names 52 NODE_ID 52 REPORTED PORT_ID 52 restoring 52 write performance 90 write requests improving the subsystem response time with write-back caching 34 placing data with write-through caching 35 write-back caching general description 34 write-through caching general des