| Title and Copyright Information |
| About This Manual |
| Audience |
| New and Changed Features |
| Organization |
| Related Documents |
| Reader's Comments |
| Conventions |
| 1 | Introduction |
| 1.1 | TruCluster Server |
| 1.2 | Memory Requirements |
| 1.3 | Minimum Disk Requirements |
| 1.3.1 | Disks Needed for Installation |
| 1.3.1.1 | Tru64 UNIX Operating System Disk |
| 1.3.1.2 | Clusterwide Disks |
| 1.3.1.3 | Member Boot Disk |
| 1.3.1.4 | Quorum Disk |
| 1.4 | Generic Two-Node Cluster |
| 1.5 | Growing a Cluster from Minimum Storage to an NSPOF Cluster |
| 1.5.1 | Two-Node Clusters Using an UltraSCSI BA356 Storage Shelf and Minimum Disk Configurations |
| 1.5.2 | Two-Node Clusters Using UltraSCSI BA356 Storage Units with Increased Disk Configurations |
| 1.5.3 | Two-Node Configurations with UltraSCSI BA356 Storage Units and Dual SCSI Buses |
| 1.5.4 | Using Hardware RAID to Mirror the Quorum and Member System Boot Disks |
| 1.5.5 | Creating an NSPOF Cluster |
| 1.6 | Eight-Member Clusters |
| 1.7 | Overview of Setting Up the TruCluster Server Hardware Configuration |
| 2 | Hardware Requirements and Restrictions |
| 2.1 | TruCluster Server Member System Requirements |
| 2.2 | Cluster Interconnect Requirements and Restrictions |
| 2.2.1 | LAN Interconnect |
| 2.2.2 | Memory Channel Restrictions |
| 2.3 | Host Bus Adapter Restrictions |
| 2.3.1 | Fibre Channel Requirements and Restrictions |
| 2.3.1.1 | General Fibre Channel Requirements and Restrictions |
| 2.3.1.2 | Fibre Channel Requirements and Restriction Specific to the HSG60 and HSG80 |
| 2.3.1.3 | Fibre Channel Requirements and Restriction Specific to the Enterprise Virtual Array |
| 2.3.2 | KZPSA-BB SCSI Adapter Restrictions |
| 2.3.3 | KZPBA-CB and 3X-KZPBA-CC SCSI Bus Adapter Restrictions |
| 2.4 | Disk Device Restrictions |
| 2.5 | RAID Array Controller Restrictions |
| 2.6 | SCSI Signal Converters |
| 2.7 | DS-DWZZH-03 and DS-DWZZH-05 UltraSCSI Hubs |
| 2.8 | SCSI Cables |
| 2.9 | SCSI Terminators and Trilink Connectors |
| 3 | Shared SCSI Bus Requirements and Configurations Using UltraSCSI Hardware |
| 3.1 | Shared SCSI Bus Configuration Requirements |
| 3.2 | SCSI Bus Performance |
| 3.2.1 | SCSI Bus Versus SCSI Bus Segments |
| 3.2.2 | Transmission Methods |
| 3.2.3 | Data Path |
| 3.2.4 | Bus Speed |
| 3.3 | SCSI Bus Device Identification Numbers |
| 3.4 | SCSI Bus Length |
| 3.5 | Terminating the Shared SCSI Bus When Using UltraSCSI Hubs |
| 3.6 | UltraSCSI Hubs |
| 3.6.1 | Using a DWZZH UltraSCSI Hub in a Cluster Configuration |
| 3.6.1.1 | DS-DWZZH-03 Description |
| 3.6.1.2 | DS-DWZZH-05 Description |
| 3.6.1.2.1 | DS-DWZZH-05 Configuration Guidelines |
| 3.6.1.2.2 | DS-DWZZH-05 Fair Arbitration |
| 3.6.1.2.3 | DS-DWZZH-05 Address Configurations |
| 3.6.1.2.4 | SCSI Bus Termination Power |
| 3.6.1.2.5 | DS-DWZZH-05 Indicators |
| 3.6.1.3 | Installing the DS-DWZZH-05 UltraSCSI Hub |
| 3.7 | Preparing the UltraSCSI Storage Configuration |
| 3.7.1 | Configuring Radially Connected TruCluster Server Clusters with UltraSCSI Hardware |
| 3.7.1.1 | HSZ80 |
| 3.7.1.2 | RA3000 |
| 3.7.1.3 | Preparing an HSZ80 for a Shared SCSI Bus Using Transparent Failover Mode |
| 3.7.1.4 | Preparing a Dual-Redundant HSZ80 for a Shared SCSI Bus Using Multiple-Bus Failover |
| 3.7.1.5 | Preparing an RA3000 for Use on a Shared SCSI Bus with an UltraSCSI Hub |
| 4 | TruCluster Server System Configuration Using UltraSCSI Hardware |
| 4.1 | Planning Your TruCluster Server Hardware Configuration |
| 4.2 | Obtaining the Firmware Release Notes |
| 4.3 | TruCluster Server Hardware Installation |
| 4.3.1 | Installation of a KZPBA Using Internal Termination for a Radial Configuration |
| 4.3.2 | Displaying KZPBA Adapters with the show Console Commands |
| 4.3.3 | Displaying Console Environment Variables and Setting the KZPBA SCSI ID |
| 4.3.3.1 | Displaying KZPBA pk* or isp* Console Environment Variables |
| 4.3.3.2 | Setting the KZPBA SCSI Bus ID |
| 4.3.3.3 | KZPBA Termination Resistors |
| 5 | Setting Up the Memory Channel Cluster Interconnect |
| 5.1 | Setting the Memory Channel Adapter Jumpers |
| 5.1.1 | MC1 and MC1.5 Hub Mode Jumper |
| 5.1.2 | MC2 Jumpers |
| 5.2 | Installing the Memory Channel Adapter |
| 5.3 | Installing the MC2 Optical Converter in the Member System |
| 5.4 | Installing the Memory Channel Hub |
| 5.5 | Installing the Memory Channel Cables |
| 5.5.1 | Installing the MC1 or MC1.5 Cables |
| 5.5.1.1 | Connecting MC1 or MC1.5 Link Cables in Virtual Hub Mode |
| 5.5.1.2 | Connecting MC1 Link Cables in Standard Hub Mode |
| 5.5.2 | Installing the MC2 Cables |
| 5.5.2.1 | Installing the MC2 Cables for Virtual Hub Mode Without Optical Converters |
| 5.5.2.2 | Installing MC2 Cables in Virtual Hub Mode Using Optical Converters |
| 5.5.2.3 | Connecting MC2 Link Cables in Standard Hub Mode (No Fiber Optics) |
| 5.5.2.4 | Connecting MC2 Cables in Standard Hub Mode Using Optical Converters |
| 5.6 | Running Memory Channel Diagnostics |
| 5.7 | Maintaining Memory Channel Interconnects |
| 5.7.1 | Adding a Memory Channel Interconnect |
| 5.7.2 | Upgrading Memory Channel Adapters |
| 5.7.3 | Upgrading a Virtual Hub Configuration to a Standard Hub Configuration |
| 6 | Configuring LAN Hardware as the Cluster Interconnect |
| 6.1 | Configuration Guidelines |
| 6.2 | Set Ethernet Switch Address Aging to 15 Seconds |
| 6.3 | LAN Interconnect Configurations |
| 6.3.1 | Two Cluster Members Directly Connected by a Single Crossover Cable |
| 6.3.2 | Cluster Using a Single Ethernet Switch |
| 6.3.3 | Cluster Using Fully Redundant LAN Interconnect Hardware |
| 6.3.4 | Configurations That Support Ethernet Hubs |
| 6.3.5 | Clustering AlphaServer DS10L Systems |
| 7 | Using Fibre Channel Storage |
| 7.1 | Fibre Channel Overview |
| 7.1.1 | Basic Fibre Channel Terminology |
| 7.1.2 | Fibre Channel Topologies |
| 7.1.2.1 | Point-to-Point |
| 7.1.2.2 | Fabric |
| 7.1.2.3 | Arbitrated Loop Topology |
| 7.2 | Fibre Channel Topology Comparison |
| 7.3 | Example Fibre Channel Configurations Supported by TruCluster Server |
| 7.3.1 | Fibre Channel Cluster Configurations for Transparent Failover Mode |
| 7.3.2 | Fibre Channel Cluster Configurations for Multiple-Bus Failover Mode |
| 7.4 | QuickLoop |
| 7.5 | Zoning |
| 7.5.1 | Switch Zoning Versus Selective Storage Presentation |
| 7.5.2 | Types of Zoning |
| 7.5.3 | Zoning Example |
| 7.6 | Cascaded Switches |
| 7.7 | Procedure for Installation Using Fibre Channel Disks |
| 7.8 | Installing and Configuring Fibre Channel Hardware |
| 7.8.1 | Installing the Fibre Channel Switch |
| 7.8.2 | Installing and Setting Up the DS-SWXHB-07 Hub |
| 7.8.2.1 | Installing the Hub |
| 7.8.2.2 | Determining the Hub Status |
| 7.8.3 | Installing and Configuring the Fibre Channel Adapter Modules |
| 7.8.3.1 | Installing the Fibre Channel Adapter Modules |
| 7.8.3.2 | Setting the Fibre Channel Adapter to Run on a Fabric |
| 7.8.3.3 | Setting the DS-KGPSA-CA Adapter to Run in a Loop |
| 7.8.3.4 | Obtain the Fibre Channel Adapter Port Worldwide Name |
| 7.9 | Preparing the Storage for Tru64 UNIX and TruCluster Server Software Installation |
| 7.9.1 | Preparing an HSG80 for Tru64 UNIX and TruCluster Server Software Installation |
| 7.9.1.1 | Setting Up the HSG80 |
| 7.9.1.2 | Setting Up the HSG80 Array Controller for Arbitrated Loop |
| 7.9.1.3 | Obtaining the Worldwide Names of HSG80 Controller |
| 7.9.1.4 | Configuring the HSG80 Disks for Software Installation |
| 7.9.1.4.1 | Configure the HSG80 Storagesets and Partitions |
| 7.9.1.4.2 | Adding Units and Identifiers to the HSG80 Storagesets |
| 7.9.2 | Preparing an Enterprise Virtual Array for Tru64 UNIX and TruCluster Server Installation |
| 7.9.2.1 | Obtaining the VCS License Keys |
| 7.9.2.2 | Accessing and Initializing the Storage System |
| 7.9.2.2.1 | Access the HSV Element Manager |
| 7.9.2.2.2 | Establish Access to the Storage System |
| 7.9.2.2.3 | Enter the License Keys |
| 7.9.2.2.4 | Initialize the Storage System |
| 7.9.2.3 | Configuring the Virtual Disks for Software Installation |
| 7.9.2.4 | Adding Hosts (Member Systems) with the Graphical User Interface |
| 7.9.2.5 | Creating a Virtual Disk Folder and Virtual Disks |
| 7.10 | Preparing to Install, and installing the Software |
| 7.10.1 | Set the Device Unit Number |
| 7.10.2 | Displaying Valid Boot Devices |
| 7.10.3 | Install the Base Operating System |
| 7.10.4 | Reset the bootdef_dev Console Environment Variable |
| 7.10.5 | Determining /dev/disk/dskn to Use for a Cluster Installation |
| 7.10.6 | Label the Disks to Be Used to Create the Cluster |
| 7.10.7 | Install the TruCluster Server Software and Create the First Cluster Member |
| 7.10.8 | Add Additional Systems to the Cluster |
| 7.11 | Converting the HSG80 from Transparent to Multiple-Bus Failover Mode |
| 7.11.1 | Overview |
| 7.11.2 | Procedure to Convert from Transparent to Multiple-bus Failover Mode |
| 7.12 | Using the Storage System Scripting Utility |
| 7.12.1 | Starting the Scripting Utility |
| 7.12.2 | Capturing an Existing Configuration with the Scripting Utility |
| 7.12.3 | Using the Scripting Utility with the File Command |
| 7.12.4 | Creating Script Files for Use with the Scripting Utility |
| 7.12.5 | Using the Scripting Utility to Delete Enterprise Configuration Information |
| 7.13 | Using the emx Manager to Display Fibre Channel Adapter Information |
| 7.13.1 | Using the emxmgr Utility to Display Fibre Channel Adapter Information |
| 7.13.2 | Using the emxmgr Utility in an Arbitrated Loop Topology |
| 7.13.3 | Using the emxmgr Utility Interactively |
| 8 | Using GS80, GS160, or GS320 Hard Partitions in a TruCluster Server Configuration |
| 8.1 | Overview of Hard Partitions |
| 8.2 | Hardware Requirements for a Hard Partition in a Cluster |
| 8.3 | Configuring Partitioned GS80, GS160, or GS320 Systems in a TruCluster Server Configuration |
| 8.3.1 | Repartitioning a Single-Partition AlphaServer GS80/160/320 as Two Partitions in a Cluster |
| 8.4 | Determining AlphaServer GS80/160/320 System Configuration |
| 8.5 | Updating GS80/160/320 Firmware |
| 8.5.1 | Updating AlphaServer GS80/160/320 Firmware |
| 9 | Configuring a Shared Bus for Tape Drive Use |
| 9.1 | Preparing the TL891 DLT MiniLibrary (as Sold by the 2-5-2 Part Numbers) for Shared SCSI Usage |
| 9.1.1 | Setting the TL891 SCSI ID |
| 9.1.2 | Cabling the TL891 MiniLibrary |
| 9.2 | Preparing the TL890 DLT MiniLibrary Expansion Unit |
| 9.2.1 | TL890 DLT MiniLibrary Expansion Unit Hardware |
| 9.2.2 | Preparing the DLT MiniLibraries for Shared Bus Usage |
| 9.2.2.1 | Cabling the DLT MiniLibraries |
| 9.2.2.2 | Configuring a Base Module as a Slave |
| 9.2.2.3 | Powering Up the DLT MiniLibrary |
| 9.2.2.4 | Setting the TL890/TL891 SCSI ID |
| 9.3 | Preparing the TL894 DLT Automated Tape Library for Shared SCSI Bus Usage |
| 9.3.1 | TL894 Robotic Controller Required Firmware |
| 9.3.2 | Setting TL894 Robotics Controller and Tape Drive SCSI IDs |
| 9.3.3 | TL894 Tape Library Internal Cabling |
| 9.3.4 | Connecting the TL894 Tape Library to the Shared SCSI Bus |
| 9.4 | Preparing the TL895 DLT Automated Tape Library for Shared SCSI Bus Usage |
| 9.4.1 | TL895 Robotic Controller Required Firmware |
| 9.4.2 | Setting the TL895 Tape Library SCSI IDs |
| 9.4.3 | TL895 Tape Library Internal Cabling |
| 9.4.4 | Upgrading a TL895 |
| 9.4.5 | Connecting the TL895 Tape Library to the Shared SCSI Bus |
| 9.5 | Preparing the TL893 and TL896 Automated Tape Libraries for Shared SCSI Bus Usage |
| 9.5.1 | Communications with the Host Computer |
| 9.5.2 | MUC Switch Functions |
| 9.5.3 | Setting the MUC SCSI ID |
| 9.5.4 | Tape Drive SCSI IDs |
| 9.5.5 | TL893 and TL896 Automated Tape Library Internal Cabling |
| 9.5.6 | Connecting the TL893 and TL896 Automated Tape Libraries to the Shared SCSI Bus |
| 9.6 | Preparing the TL881 and TL891 DLT MiniLibraries for Shared Bus Usage |
| 9.6.1 | TL881 and TL891 DLT MiniLibraries Overview |
| 9.6.1.1 | TL881 and TL891 DLT MiniLibrary Tabletop Models |
| 9.6.1.2 | TL881 and TL891 MiniLibrary Rackmount Components |
| 9.6.1.3 | TL881 and TL891 Rackmount Scalability |
| 9.6.1.4 | DLT MiniLibrary Part Numbers |
| 9.6.2 | Preparing a TL881 or TL891 MiniLibrary for Shared SCSI Bus Use |
| 9.6.2.1 | Preparing a Tabletop Model or Base Unit for Standalone Shared SCSI Bus Usage |
| 9.6.2.1.1 | Setting the Standalone MiniLibrary Tape Drive SCSI ID |
| 9.6.2.1.2 | Cabling the TL881 or TL891 DLT MiniLibrary |
| 9.6.2.2 | Preparing a TL881 or TL891 Rackmount MiniLibrary for Shared SCSI Bus Usage |
| 9.6.2.2.1 | Cabling the Rackmount TL881 or TL891 DLT MiniLibrary |
| 9.6.2.2.2 | Configuring a Base Unit as a Slave to the Expansion Unit |
| 9.6.2.2.3 | Powering Up the TL881/TL891 DLT MiniLibrary |
| 9.6.2.2.4 | Setting the SCSI IDs for a Rackmount TL881 or TL891 DLT MiniLibrary |
| 9.7 | Compaq ESL9326D Enterprise Library |
| 9.7.1 | General Overview |
| 9.7.2 | ESL9326D Enterprise Library Overview |
| 9.7.3 | Preparing the ESL9326D Enterprise Library for Shared SCSI Bus Usage |
| 9.7.3.1 | ESL9326D Enterprise Library Robotic and Tape Drive Required Firmware |
| 9.7.3.2 | Library Electronics and Tape Drive SCSI IDs |
| 9.7.3.3 | ESL9326D Enterprise Library Internal Cabling |
| 9.7.3.4 | Connecting the ESL9326D Enterprise Library to the Shared SCSI Bus |
| 10 | Configuring Systems for External Termination |
| 10.1 | TruCluster Server Hardware Installation Using PCI SCSI Adapters |
| 10.1.1 | Installing a KZPSA-BB or KZPBA for Use with the Old Method of External Termination |
| 10.1.2 | Displaying KZPSA-BB and KZPBA Adapters with the show Console Commands |
| 10.1.3 | Displaying Console Environment Variables and Setting the KZPSA-BB and KZPBA SCSI ID |
| 10.1.3.1 | Displaying KZPSA-BB and KZPBA pk* or isp* Console Environment Variables |
| 10.1.3.2 | Setting the KZPBA SCSI ID |
| 10.1.3.3 | Setting KZPSA-BB SCSI Bus ID, Bus Speed, and Termination Power |
| 10.1.3.4 | KZPSA-BB and KZPBA Termination Resistors |
| 10.1.3.5 | Updating the KZPSA-BB Adapter Firmware |
| 11 | Configurations Using the Old Method of External Termination |
| 11.1 | Using SCSI Bus Signal Converters |
| 11.1.1 | Types of SCSI Bus Signal Converters |
| 11.1.2 | Using the SCSI Bus Signal Converters |
| 11.1.2.1 | DWZZA and DWZZB Signal Converter Termination |
| 11.1.2.2 | DS-BA35X-DA Termination |
| 11.2 | Terminating the Shared SCSI Bus |
| 11.3 | Overview of Disk Storage Shelves |
| 11.3.1 | BA350 Storage Shelf |
| 11.3.2 | BA356 Storage Shelf |
| 11.3.2.1 | Non-UltraSCSI BA356 Storage Shelf |
| 11.3.2.2 | UltraSCSI BA356 Storage Shelf |
| 11.4 | Preparing the Storage for Configurations Using External Termination |
| 11.4.1 | Preparing BA350, BA356, and UltraSCSI BA356 Storage Shelves for an Externally Terminated TruCluster Server Configuration |
| 11.4.1.1 | Preparing a BA350 Storage Shelf for Shared SCSI Usage |
| 11.4.1.2 | Preparing a BA356 Storage Shelf for Shared SCSI Usage |
| 11.4.1.3 | Preparing an UltraSCSI BA356 Storage Shelf for a TruCluster Server Configuration |
| 11.4.2 | Cabling a Single Storage Shelf |
| 11.4.2.1 | Cabling a Single BA350 Storage Shelf |
| 11.4.2.2 | Cabling a Single BA356 Storage Shelf |
| 11.4.2.3 | Cabling a Single UltraSCSI BA356 Storage Shelf |
| 11.4.3 | Connecting Storage Shelves Together |
| 11.4.3.1 | Connecting a BA350 and a BA356 for Shared SCSI Bus Usage |
| 11.4.3.2 | Connecting Two BA356s for Shared SCSI Bus Usage |
| 11.4.3.3 | Connecting Two UltraSCSI BA356s for Shared SCSI Bus Usage |
| 11.4.4 | Cabling an RA3000 Using External Termination |
| 12 | Configuring an Eight-Member Cluster Using Externally Terminated Shared SCSI Buses |
| 12.1 | Overview of an Eight-Node TruCluster Server Cluster |
| 12.2 | Configuring an Eight-Node Cluster Using an UltraSCSI BA356 and External Termination |
| 12.2.1 | Cabling the First Two Nodes on the First Externally Terminated Shared SCSI Cluster |
| 12.2.2 | Cabling the Second Externally Terminated Shared SCSI Bus |
| 12.2.3 | Cabling the Third Externally Terminated Shared SCSI Bus |
| A | Worldwide ID-to-Disk Name Conversion Table |
| B | Configuring Switches for a Highly Available LAN Interconnect |
| B.1 | Link Aggregation |
| B.2 | Link Resiliency |
| B.3 | Spanning Tree Protocol (STP) |
| Examples |
| 4-1 | Displaying Configuration on an AlphaServer DS20 |
| 4-2 | Displaying Devices on an AlphaServer DS20 |
| 4-3 | Displaying Configuration on an AlphaServer 8200 |
| 4-4 | Displaying Devices on an AlphaServer 8200 |
| 4-5 | Displaying the pk* Console Environment Variables on an AlphaServer DS20 System |
| 4-6 | Displaying Console Variables for a KZPBA on an AlphaServer 8x00 System |
| 4-7 | Setting the KZPBA SCSI Bus ID |
| 5-1 | Running the mc_cable Test |
| 7-1 | Verifying KGPSA Topology |
| 7-2 | Correcting NVRAM Read Failed Message and Setting KGPSAs to Run on Fabric |
| 7-3 | Verifying Controller Array Controller Software Version |
| 7-4 | Determine HSG80 Connection Names |
| 7-5 | Setting Up the Mirrorsets |
| 7-6 | Adding Units and Identifiers to the HSG80 Storagesets, and Enabling Access to Cluster Member Systems |
| 7-7 | Setting the Device Unit Number for the BOS Installation Disk |
| 7-8 | Setting the Device Unit Number for the First Cluster Member Boot Disk |
| 7-9 | Sample Fibre Channel Device Names |
| 7-10 | Setting Device Unit Number for Additional Member System |
| 7-11 | Preparing the Scripting Utility to Access an HSV110 Controller Pair |
| 7-12 | Capturing the Enterprise Virtual Array Configuration |
| 7-13 | Using the Scripting Utility File Command with a Script File |
| 7-14 | Script File Used to Create the Example Configuration |
| 7-15 | Using the Scripting Utility to Reset the WWN for a Replaced KGPSA |
| 7-16 | Script File to Delete the Example Configuration |
| 8-1 | Defining Hard Partitions with SCM Environment Variables |
| 8-2 | Turning Partition Power On |
| 8-3 | Displaying AlphaServer GS160 System Information |
| 8-4 | Displaying Console Serial Bus Information |
| 10-1 | Displaying Configuration on an AlphaServer 4100 |
| 10-2 | Displaying Devices on an AlphaServer 4100 |
| 10-3 | Displaying Configuration on an AlphaServer 8200 |
| 10-4 | Displaying Devices on an AlphaServer 8200 |
| 10-5 | Displaying the pk* Console Environment Variables on an AlphaServer 4100 System |
| 10-6 | Displaying Console Variables for a KZPBA on an AlphaServer 8x00 System |
| 10-7 | Displaying Console Variables for a KZPSA-BB on an AlphaServer 8x00 System |
| 10-8 | Setting the KZPBA SCSI Bus ID |
| 10-9 | Setting KZPSA-BB SCSI Bus ID and Speed |
| Figures |
| 1-1 | Two-Node Cluster with Minimum Disk Configuration and No Quorum Disk |
| 1-2 | Generic Two-Node Cluster with Minimum Disk Configuration and Quorum Disk |
| 1-3 | Minimum Two-Node Cluster with UltraSCSI BA356 Storage Unit |
| 1-4 | Two-Node Cluster with Two UltraSCSI DS-BA356 Storage Units |
| 1-5 | Two-Node Configurations with UltraSCSI BA356 Storage Units and Dual SCSI Buses |
| 1-6 | Cluster Configuration with HSZ80 Controllers in Transparent Failover Mode |
| 1-7 | NSPOF Cluster Using HSZ80s in Multiple-Bus Failover Mode |
| 1-8 | NSPOF Fibre Channel Cluster Using HSG80s in Multiple-Bus Failover Mode |
| 1-9 | NSPOF Cluster Using LSM and UltraSCSI BA356s |
| 2-1 | PCI Backplane Slot Layout |
| 3-1 | VHDCI Trilink Connector (H8861-AA) |
| 3-2 | DS-DWZZH-03 Front View |
| 3-3 | DS-DWZZH-05 Rear View |
| 3-4 | DS-DWZZH-05 Front View |
| 3-5 | Shared SCSI Bus with HSZ80 Configured for Transparent Failover |
| 3-6 | TruCluster Server Configuration with HSZ80 in Multiple-Bus Failover Mode |
| 3-7 | TruCluster Server Configuration with an RA3000 Controller Shelf with Active/Passive Failover |
| 3-8 | TruCluster Server Configuration with an RA3000 Pedestal with Active/Passive Failover and a DWZZH-05 UltraSCSI Hub |
| 3-9 | TruCluster Server Configuration with an RA3000 Pedestal with Active/Active or Active/Passive Failover |
| 3-10 | TruCluster Server Configuration with an RA3000 Controller Shelf with Active/Active or Active/Passive Failover |
| 4-1 | KZPBA Termination Resistors |
| 5-1 | Connecting Memory Channel Adapters to Hubs |
| 5-2 | MC1-to-MC2 Virtual Hub Upgrade |
| 5-3 | MC1-to-MC2 Standard Hub Upgrade: Initial Configuration |
| 5-4 | MC1-to-MC2 Standard Hub Upgrade: First MC1 Module Replaced |
| 5-5 | MC1-to-MC2 Standard Hub Upgrade: Replace First MC1 Adapter in Second System |
| 5-6 | MC1-to-MC2 Standard Hub Upgrade: Replace Third System Memory Channel Adapters |
| 5-7 | MC1-to-MC2 Standard Hub Upgrade: Replace Second MC1 in Second System |
| 5-8 | MC1-to-MC2 Standard Hub Upgrade: Final Configuration |
| 6-1 | Two Cluster Members Directly Connected by a Single Crossover Cable |
| 6-2 | Three-Member Cluster Using a Single Ethernet Switch |
| 6-3 | Recommended Fully Redundant LAN Interconnect Configuration Using Link Aggregation or Link Resiliency |
| 6-4 | Recommended Fully Redundant LAN Interconnect Configuration Using the Spanning Tree Protocol |
| 6-5 | Nonrecommended Redundant LAN Interconnect Configuration |
| 6-6 | Low-End AlphaServer DS10L Cluster |
| 6-7 | Cluster Including Both AlphaServer DS10L and AlphaServer ES40 Members |
| 7-1 | Point-to-Point Topology |
| 7-2 | Fabric Topology |
| 7-3 | Arbitrated Loop Topology |
| 7-4 | Fibre Channel Single Switch Transparent Failover Configuration |
| 7-5 | Arbitrated Loop Configuration with One Storage Array |
| 7-6 | Multiple-Bus NSPOF Configuration Number 1 |
| 7-7 | Multiple-Bus NSPOF Configuration Number 2 |
| 7-8 | Configuration That Is Not Recommended |
| 7-9 | Another Configuration That Is Not Recommended |
| 7-10 | Arbitrated Loop Maximum Configuration |
| 7-11 | Simple Zoned Configuration |
| 7-12 | Meshed Fabric with Three Cascaded Switches |
| 7-13 | Meshed Resilient Fabric with Four Cascaded Switches |
| 7-14 | Open SAN Manager Navigation Pane |
| 7-15 | Launching the HSV Element Manager |
| 7-16 | Management Agent Options Window |
| 7-17 | Selecting the Hosts Folder |
| 7-18 | Host Folder Properties Pane |
| 7-19 | Adding Host Information |
| 7-20 | Add a Host Page Two |
| 7-21 | Adding a Host Page Three |
| 7-22 | Operation Was Successful |
| 7-23 | Host Properties Pane |
| 7-24 | Adding Another Fibre Channel Adapter to the Host |
| 7-25 | Selecting the Virtual Disks |
| 7-26 | Preparing to Create a Folder or Virtual Disk |
| 7-27 | Creating a Folder for Virtual Disks |
| 7-28 | Select the Folder to Hold Virtual Disks |
| 7-29 | Virtual Disk Folder Properties |
| 7-30 | Creating a Virtual Disk |
| 7-31 | Page 2 of the Create a Virtual Disk Family Pane |
| 7-32 | Successful Virtual Disk Creation |
| 7-33 | Selecting the Active Virtual Disk |
| 7-34 | Preparing to Present the Virtual Disk to Another Host |
| 7-35 | Selecting Another Host for Virtual Disk Presentation |
| 7-36 | Verify the Virtual Disk Properties |
| 8-1 | Portion of QBB Showing I/O Riser Modules |
| 8-2 | Front View of Expansion and Primary PCI Drawers |
| 8-3 | Rear View of Expansion and Primary PCI Drawers |
| 9-1 | TruCluster Server Cluster with a TL891 on Two Shared Buses |
| 9-2 | TL890 and TL891 DLT MiniLibrary on Shared Buses |
| 9-3 | TL894 Tape Library Four-Bus Configuration |
| 9-4 | Shared SCSI Buses with TL894 in Two-Bus Mode |
| 9-5 | TL895 Tape Library Internal Cabling |
| 9-6 | TL893 Three-Bus Configuration |
| 9-7 | TL896 Six-Bus Configuration |
| 9-8 | Shared SCSI Buses with TL896 in Three-Bus Mode |
| 9-9 | TL891 Standalone Cluster Configuration |
| 9-10 | TL891 DLT MiniLibrary Rackmount Configuration |
| 9-11 | ESL9326D Internal Cabling |
| 10-1 | KZPSA-BB Termination Resistors |
| 11-1 | Standalone SCSI Signal Converter |
| 11-2 | SBB SCSI Signal Converter |
| 11-3 | DS-BA35X-DA Personality Module Switches |
| 11-4 | BN21W-0B Y Cable |
| 11-5 | HD68 Trilink Connector (H885-AA) |
| 11-6 | BA350 Internal SCSI Bus |
| 11-7 | BA356 Internal SCSI Bus |
| 11-8 | BA356 Jumper and Terminator Module Identification Pins |
| 11-9 | BA350 and BA356 Cabled for Shared SCSI Bus Usage |
| 11-10 | Two BA356s Cabled for Shared SCSI Bus Usage |
| 11-11 | Two UltraSCSI BA356s Cabled for Shared SCSI Bus Usage |
| 11-12 | Externally Terminated TruCluster Server Configuration with an RA3000 Pedestal with Active/Passive Failover |
| 11-13 | Externally Terminated TruCluster Server Configuration with an RA3000 Controller Shelf with Active/Passive Failover |
| 11-14 | Externally Terminated TruCluster Server Configuration with an RA3000 Controller Shelf with Active/Active or Active/Passive Failover |
| 11-15 | Externally Terminated TruCluster Server Configuration with a Mid-bus RA3000 Controller Shelf with Active/Active or Active/Passive Failover |
| 12-1 | Block Diagram of an Eight-Node Cluster |
| 12-2 | First Two Nodes of an Eight-Node Cluster |
| 12-3 | Second Shared SCSI Bus of an Eight-Node Cluster |
| 12-4 | Third Shared SCSI Bus of an Eight-Node Cluster |
| Tables |
| 2-1 | AlphaServer Systems Supported for Fibre Channel |
| 2-2 | AlphaServer Systems and Fibre Channel Adapters Supported with an Enterprise Virtual Array |
| 2-3 | RAID Controller Minimum Required Array Controller Software |
| 2-4 | RAID Controller SCSI IDs |
| 2-5 | Supported SCSI Cables |
| 2-6 | Supported SCSI Terminators and Trilink Connectors |
| 3-1 | SCSI Bus Speeds |
| 3-2 | SCSI Bus Segment Length |
| 3-3 | DS-DWZZH UltraSCSI Hub Maximum Configurations |
| 3-4 | Hardware Components Shown in Figure 3-5 |
| 3-5 | Hardware Components Shown in Figure 3-6 |
| 3-6 | Installing Cables for RA3000 Radial Configuration with a DWZZH UltraSCSI Hub |
| 3-7 | Hardware Components Used in the Configurations Shown in Figure 3-7 through Figure 3-10 |
| 4-1 | Planning Your Configuration |
| 4-2 | Configuring TruCluster Server Hardware |
| 4-3 | Installing the KZPBA for Radial Connection to a DWZZH UltraSCSI Hub |
| 5-1 | MC1 and MC1.5 J4 Jumper Configuration |
| 5-2 | MC2 Jumper Configuration |
| 5-3 | MC2 Linecard Jumper Configurations |
| 5-4 | Adding a Memory Channel Interconnect or Upgrading from a Dual, Redundant MC1 Interconnect to MC2 Interconnects |
| 5-5 | Upgrading from a Virtual Hub Configuration to a Standard Hub Configuration |
| 7-1 | Fibre Channel Fabric and Arbitrated Loop Comparison |
| 7-2 | Type of Zoning Supported by Switches |
| 7-3 | Example HSG80 Disk Configuration |
| 7-4 | Example Enterprise Virtual Array Disk Configuration |
| 9-1 | Hardware Components Used to Create the Configuration Shown in Figure 9-1 |
| 9-2 | Hardware Components Used to Create the Configuration Shown in Figure 9-2 |
| 9-3 | TL894 Default SCSI ID Settings |
| 9-4 | Hardware Components Used to Create the Configuration Shown in Figure 9-4 |
| 9-5 | TL895 DLT Automated Tape Library Part Numbers |
| 9-6 | TL895 Default SCSI ID Settings |
| 9-7 | MUC Switch Functions |
| 9-8 | MUC SCSI ID Selection |
| 9-9 | TL893 Default SCSI IDs |
| 9-10 | TL896 Default SCSI IDs |
| 9-11 | Hardware Components Used to Create the Configuration Shown in Figure 9-8 |
| 9-12 | TL881 and TL891 MiniLibrary Performance and Capacity Comparison |
| 9-13 | DLT MiniLibrary Part Numbers |
| 9-14 | Hardware Components Used to Create the Configuration Shown in Figure 9-9 |
| 9-15 | Hardware Components Used to Create the Configuration Shown in Figure 9-10 |
| 9-16 | Shared SCSI Bus Cable and Terminator Connections for the ESL9326D Enterprise Library |
| 10-1 | Configuring TruCluster Server Hardware for Use with a PCI SCSI Adapter |
| 10-2 | Installing a KZPSA-BB or KZPBA for Use with External Termination |
| 11-1 | Hardware Components Used for Configuration Shown in Figure 11-9 and Figure 11-10 |
| 11-2 | Hardware Components Used for Configuration Shown in Figure 11-11 |
| 11-3 | Installing Cables for RA3000 Configuration Using External Termination and Y Cables |
| 11-4 | Hardware Components Used in the TruCluster Server Configuration Shown in Figure 11-12, Figure 11-13, and Figure 11-14 |
| 11-5 | Hardware Components Used in the Configuration Shown in Figure 11-15 |
| 12-1 | Hardware Components Used for Configuration Shown in Figure 12-2 |
| 12-2 | Hardware Components Used for Configuration Shown in Figure 12-3 |
| 12-3 | Hardware Components Used for Configuration Shown in Figure 12-4 |
| A-1 | Converting Storageset Unit Numbers to Disk Names |
| Index |