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Compaq AA-RHGWC-TE manual DS-DWZZH-05 Rear View

Models: AA-RHGWC-TE

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Install Scsi Signal Converters TL894 Default Scsi ID Settings DS-DWZZH-05 Indicators Cluster Administration Planning Your Configuration H885-AA trilink connector MC1 Hub AlphaServer Setting the KZPBA-CB Scsi ID UPD update pkb0

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Figure 3–3: DS-DWZZH-05 Rear View

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ZK-1448U-AI

3–14Shared SCSI Bus Requirements and Configurations Using UltraSCSI Hardware

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Compaq AA-RHGWC-TE manual DS-DWZZH-05 Rear View

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Related pages Architects’ and Engineers’ Specifications for Electro-Voice HP640

Contents

TruCluster Server Page Contents 1.2.1 Setting Up the Memory Channel Cluster Interconnect Using Fibre Channel Storage 2.2 Configuring a Shared Scsi Bus for Tape Drive Use 10.1 11.1 13.3.2 Worldwide ID-to-Disk Name Conversion Table Index Examples 10-2 Figures Contents Xiv Contents Tables 10-4 Audience Organization Related Documents About This Manual Xx About This Manual About This Manual Reader’s Comments Conventions Cluster Page Introduction TruCluster Server Product Minimum Disk Requirements Disks Needed for InstallationMemory Requirements 1.1 Tru64 Unix Operating System Disk Member Boot Disk Clusterwide Disks Generic Two-Node Cluster Quorum Disk Member System Growing a Cluster from Minimum Storage to a Nspof Cluster Introduction Minimum Two-Node Cluster with UltraSCSI BA356 Storage Unit Introduction Two-Node Cluster with Two UltraSCSI DS-BA356 Storage Units Introduction 12Introduction Memory Creating a Nspof Cluster Nspof Cluster Using HSZ70s in Multiple-Bus Failover Mode Kgpsa Introduction Page Hardware Requirements and Restrictions TruCluster Server Member System Requirements PCI Backplane Slot Layout Memory Channel Restrictions 4Hardware Requirements and Restrictions Host Bus Adapter Restrictions Fibre Channel Requirements and Restrictions 6Hardware Requirements and Restrictions Hardware Requirements and Restrictions KZPSA-BB Scsi Adapter Restrictions RAID Array Controller Restrictions Disk Device RestrictionsKZPBA-CB Scsi Bus Adapter Restrictions RAID Controller Minimum Required Array Controller Software Scsi Signal ConvertersRAID Controller Scsi IDs DS-DWZZH-03 and DS-DWZZH-05 UltraSCSI Hubs Scsi Cables Cable Connector Pins Configuration Use Density Supported Scsi Cables Scsi Terminators and Trilink Connectors Supported Scsi Terminators and Trilink ConnectorsPage Shared Scsi Bus Configuration Requirements Scsi Bus Performance Scsi Bus Versus Scsi Bus Segments Transmission Methods KZPBA-CB KZPSA-BB Bus Speed Scsi Bus Device Identification NumbersData Path Scsi Bus Speeds Scsi Bus Length Scsi Bus Segment Length Terminating the Shared Scsi Bus When Using UltraSCSI Hubs Using a Dwzzh UltraSCSI Hub in a Cluster Configuration UltraSCSI Hubs DS-DWZZH-03 Description Shows a front view of the DS-DWZZH-03 UltraSCSI hub DS-DWZZH-05 Configuration Guidelines DS-DWZZH-05 Description DS-DWZZH UltraSCSI Hub Maximum Configurations DS-DWZZH-03 DS-DWZZH-05 DS-DWZZH-05 Fair Arbitration DS-DWZZH-05 Address Configurations DS-DWZZH-05 Rear View DS-DWZZH-05 Indicators Scsi Bus Termination PowerInstalling the DS-DWZZH-05 UltraSCSI Hub Preparing the UltraSCSI Storage Configuration Page Page Page KZPBA-CB ID 6 T Callout Number Description Page Page KZPBA-CB ID DS-DWZZH-03 HSZ80 Page Page Planning Your TruCluster Server Hardware Configuration Planning Your Configuration To increase You can Obtaining the Firmware Release Notes TruCluster Server Hardware Installation Configuring TruCluster Server Hardware Step Action Refer to Configuring TruCluster Server Hardware Page Cluster Administration Displaying KZPBA-CB Adapters with the show Console Commands Example 4-1 Displaying Configuration on an AlphaServer DS20 TIG Example 4-2 Displaying Devices on an AlphaServer DS20 P00 show device Example 4-3 Displaying Configuration on an AlphaServer Example 4-4 Displaying Devices on an AlphaServer Displaying Console Environment Variables and Setting Example 4-4 Displaying Devices on an AlphaServer 8200 P00show pk P00show isp Example 4-7 Setting the KZPBA-CB Scsi Bus ID Setting the KZPBA-CB Scsi IDKZPBA-CB Termination Resistors JA1 Setting Up the Memory Channel Cluster Interconnect MC1 and MC1.5 Jumper Configuration Setting the Memory Channel Adapter Jumpers1 MC1 and MC1.5 Jumpers 2 MC2 Jumpers MC2 Jumper Configuration Jumper Description Example MC2 Linecard Jumper Configurations JumperDescriptionExample Installing the Memory Channel Adapter Installing the MC2 Optical Converter in the Member System Installing the Memory Channel Cables Installing the Memory Channel HubInstalling the MC1 or MC1.5 Cables Connecting MC1 or MC1.5 Link Cables in Virtual Hub Mode Connecting MC1 Link Cables in Standard Hub Mode Installing the MC2 Cables Connecting Memory Channel Adapters to Hubs 10Setting Up the Memory Channel Cluster Interconnect Running Memory Channel Diagnostics 12Setting Up the Memory Channel Cluster Interconnect Example 5-1 Running the mccable Test Mccable Upgrading Memory Channel Adapters MC1 If adding a Memory Channel interconnect Install Standard Hub Configuration 18Setting Up the Memory Channel Cluster Interconnect Dbx p rmadapters1-rmpprailva-rmcsize MC1 to MC2 Virtual Hub Rolling Upgrade MC1 Hub AlphaServer MC2 MC1 MC2 Hub AlphaServer Member System MC2 Hub Opto opto 1/opto only MC1 to MC2 Standard Hub Rolling Upgrade Final Configuration Using Fibre Channel Storage Procedure for Installation Using Fibre Channel Disks Using Fibre Channel Storage Fibre Channel Overview Basic Fibre Channel Terminology Frame Fibre Channel Topologies Point-to-Point Point-to-Point Topology Fabric Fabric Topology Arbitrated Loop Topology Hub 10Using Fibre Channel Storage Using Fibre Channel Storage Multiple-Bus Nspof Configuration Number Fibre Channel Switch HSG Controller a Port Zoning and Cascaded Switches Zoning Cascaded Switches A Simple Zoned Configuration Installing and Configuring Fibre Channel Hardware Installing and Setting Up the Fibre Channel Switch Installing the Switch Managing the Fibre Channel Switches Using the Switch Front Panel Press Enter. You can change your mind and not reboot Admin ipAddrSet Logging In to the Switch with a Telnet Connection Telnet Session Default User Names for Fibre Channel Switches Setting the Switch Name via Telnet Session Installing the Kgpsa PCI-to-Fibre Channel Adapter Module Setting the KGPSA-BC or KGPSA-CA to Run on a Fabric P00 set mode diag P00 wwidmgr -set adapter -item 9999 -topo fabric You can use the wwidmgr -show adapter command as follows Obtaining the Worldwide Names of Kgpsa Adapters 28Using Fibre Channel Storage Set this Cacheups Use the command set failover copy = Example 6-1 Determine HSG80 Connection Names HSG80 show connection HSG80 rename !NEWCON49 peppga1 Obtaining the Worldwide Names of HSG80 Controller 34Using Fibre Channel Storage Using Fibre Channel Storage Before You Install Configure the HSG80 Storagesets Example 6-2 Setting Up the Mirrorset HSG80 RUN Config 38Using Fibre Channel Storage Using Fibre Channel Storage Adding Units and Identifiers to the HSG80 Storagesets HSG80 show d131 42Using Fibre Channel Storage Converting Storageset Unit Numbers to Disk Names Set the Device Unit Number P00 wwidmgr -clear all P00 show wwid P00 wwidmgr -show wwid 46Using Fibre Channel Storage P00 wwidmgr -quickset -udid Displaying the Available Boot Devices P00 show wwid Example 6-6 Sample Fibre Channel Device Names P00 show dev You are now ready to install the Tru64 Unix operating system Install the Tru64 Unix Operating System Determining /dev/disk/dskn to Use for a Cluster Installation # hwmgr -view dev grep Identifier grep Reset the bootdefdev Console Environment Variable Label the Disks to Be Used to Create the Cluster 54Using Fibre Channel Storage Add Additional Systems to the Cluster P00 set bootdefdev dga132.1002.0.1.0 Using Fibre Channel Storage Overview HSG80 SET Nofailover HSG80 SET Multibusfailover COPY=THIS 60Using Fibre Channel Storage Initialize the console # /usr/sbin/emxmgr -m emx0 # emxmgr -t emx1 64Using Fibre Channel Storage Using the emxmgr Utility Interactively # emxmgr 66Using Fibre Channel Storage Overview Hardware Requirements for a Hard Partition in a Cluster Riser BN39B I/O Riser Cable CD-ROM Page Front View of Expansion and Primary PCI Drawers Expansion PCI Drawer Page Page COM1PRINTEN1 HPCOUNT2 HPQBBMASK03 HPQBBMASK5 HPQBBMASK6 HPQBBMASK7 Srommask Example 7-2 Turning Partition Power On Page Determining AlphaServer GS80/160/320 System Configuration Example 7-3 Displaying AlphaServer GS160 System InformationPage Example 7-4 Displaying Console Serial Bus Information CPU3/SROM Updating AlphaServer GS80/160/320 Firmware Updating GS80/160/320 Firmware Remove all hardware partitions P00 boot dqa0 Set the hard partitions back to the original configuration Page Configuring a Shared Scsi Bus for Tape Drive Use Preparing the TZ88 for Shared Bus Usage Setting the TZ88N-VA Scsi ID TZ88N-VA Scsi ID Switches TZ88N-VA Switch Settings Cabling the TZ88N-VA Shared Scsi Buses with SBB Tape Drives Setting the TZ88N-TA Scsi ID Cabling the TZ88N-TA Setting the DS-TZ89N-VW Scsi ID Preparing the TZ89 for Shared Scsi Usage DS-TZ89N-VW Scsi ID Switches DS-TZ89N-VW Switch Settings Cabling the DS-TZ89N-VW Tape Drives Setting the DS-TZ89N-TA Scsi ID Cabling the DS-TZ89N-TA Tape Drives Setting the Compaq 20/40 GB DLT Tape Drive Scsi ID Compaq 20/40 GB DLT Tape Drive Cabling the Compaq 20/40 GB DLT Tape Drive Compaq 20/40 GB DLT Tape Drive Rear Panel 12Configuring a Shared Scsi Bus for Tape Drive Use H885-AA trilink connector Setting the Compaq 40/80-GB DLT Drive Scsi ID Compaq 40/80-GB DLT Drive Cabling the Compaq 40/80-GB DLT Drive Hardware Components in the Configuration in Figure Cabling a Shared Scsi Bus with a Compaq 40/80-GB DLT Drive Hardware Components in the Configuration in -6 Setting the TZ885 Scsi IDPreparing the TZ885 for Shared Scsi Usage Cabling the TZ885 Tape Drive Cabling a Shared Scsi Bus with a TZ885 Setting the TZ887 Scsi ID Preparing the TZ887 for Shared Scsi Bus Usage Cabling the TZ887 Tape Drive TZ887 DLT MiniLibrary Rear Panel Cabling a Shared Scsi Bus with a TZ887 Setting the TL891 or TL892 Scsi ID 24Configuring a Shared Scsi Bus for Tape Drive Use Cabling the TL891 or TL892 MiniLibraries 26Configuring a Shared Scsi Bus for Tape Drive Use Configuring a Shared Scsi Bus for Tape Drive Use 28Configuring a Shared Scsi Bus for Tape Drive Use 1 TL890 DLT MiniLibrary Expansion Unit Hardware Preparing the TL890 DLT MiniLibrary Expansion UnitPreparing the DLT MiniLibraries for Shared Scsi Bus Usage Cabling the DLT MiniLibraries Configuring a Shared Scsi Bus for Tape Drive Use 11 TL890 and TL892 DLT MiniLibraries on Shared Scsi Buses Configuring a Base Module as a Slave 328215-00X, BN21K, or BN21L cable c Powering Up the DLT MiniLibrary Setting the TL890/TL891/TL892 Scsi ID 36Configuring a Shared Scsi Bus for Tape Drive Use TL894 Default Scsi ID Settings Setting TL894 Robotics Controller and Tape Drive Scsi IDs1 TL894 Robotic Controller Required Firmware 38Configuring a Shared Scsi Bus for Tape Drive Use 3 TL894 Tape Library Internal Cabling 12 TL894 Tape Library Four-Bus Configuration Connecting the TL894 Tape Library to the Shared Scsi Bus 13 Shared Scsi Buses with TL894 in Two-Bus Mode H879-AA terminator 11 TL895 Default Scsi ID Settings Setting the TL895 Tape Library Scsi IDs10.1 TL895 Robotic Controller Required Firmware 10.3 TL895 Tape Library Internal Cabling 46Configuring a Shared Scsi Bus for Tape Drive Use Upgrading a TL895 14 TL895 Tape Library Internal Cabling Connecting the TL895 Tape Library to the Shared Scsi Bus Configuring a Shared Scsi Bus for Tape Drive Use 12 MUC Switch Functions MUC Switch FunctionsCommunications with the Host Computer Tape Drive Scsi IDs Setting the MUC Scsi ID14 TL893 Default Scsi IDs 13 MUC Scsi ID Selection 15 TL896 Default Scsi IDs 11.5 TL893 and TL896 Automated Tape Library Internal Cabling 15 TL893 Three-Bus Configuration 16 TL896 Six-Bus Configuration Configuring a Shared Scsi Bus for Tape Drive Use 17 Shared Scsi Buses with TL896 in Three-Bus Mode 12.1 TL881 and TL891 DLT MiniLibraries Overview 12.1.1 TL881 and TL891 DLT MiniLibrary Tabletop Model 12.1.2 TL881 and TL891 MiniLibrary Rackmount Components 12.1.3 TL881 and TL891 Rackmount Scalability DLT MiniLibrary Part Numbers 18 DLT MiniLibrary Part Numbers 18 DLT MiniLibrary Part Numbers Setting the Standalone MiniLibrary Tape Drive Scsi ID Cabling the TL881 or TL891 DLT MiniLibrary 64Configuring a Shared Scsi Bus for Tape Drive Use Configuring a Shared Scsi Bus for Tape Drive Use 18 TL891 Standalone Cluster Configuration Cabling the Rackmount TL881 or TL891 DLT MiniLibrary 68Configuring a Shared Scsi Bus for Tape Drive Use 19 TL891 DLT MiniLibrary Rackmount Configuration Configuring a Base Unit as a Slave to the Expansion Unit Powering Up the TL881/TL891 DLT MiniLibrary 72Configuring a Shared Scsi Bus for Tape Drive Use Compaq ESL9326D Enterprise Library General Overview 13.2 ESL9326D Enterprise Library Overview Library Electronics and Tape Drive Scsi IDs 13.3.3 ESL9326D Enterprise Library Internal Cabling Scsi ID Library electronics a 78Configuring a Shared Scsi Bus for Tape Drive Use Page Using Scsi Bus Signal Converters Types of Scsi Bus Signal Converters Using the Scsi Bus Signal Converters Dwzza and Dwzzb Signal Converter Termination Standalone Scsi Signal Converter DS-BA35X-DA Termination DS-BA35X-DA Personality Module Switches Terminating the Shared Scsi BusPage BN21W-0B Y Cable HD68 Trilink Connector H885-AA Overview of Disk Storage Shelves 1 BA350 Storage Shelf 2 BA356 Storage Shelf Non-UltraSCSI BA356 Storage ShelfPage BA356 Internal Scsi Bus BA356 Jumper and Terminator Module Identification Pins UltraSCSI BA356 Storage ShelfPage Preparing a BA350 Storage Shelf for Shared Scsi Usage Preparing a BA356 Storage Shelf for Shared Scsi Usage Connecting Storage Shelves Together Connecting a BA350 and a BA356 for Shared Scsi Bus Usage BA350 and BA356 Cabled for Shared Scsi Bus Usage Connecting Two BA356s for Shared Scsi Bus Usage 10 Two BA356s Cabled for Shared Scsi Bus Usage Connecting Two UltraSCSI BA356s for Shared Scsi Bus Usage 11 Two UltraSCSI BA356s Cabled for Shared Scsi Bus Usage Hardware Components Used for Configuration Shown in Figure BN37A cable aPage KZPSA-BB ID HSZ50 BN21K or BN21L cablea b Cabling an HSZ20 in a Cluster Using External Termination Page Hardware Components Used in Configuration Shown in Figure BN21K or BN21L cableb Hub Page Page Step Action Refer to Page PCI-to-SCSI Storage Kzpsa PCI-to-SCSI Installing a KZPSA-BB or KZPBA-CB Using External Termination Power down the member system. Install Step Action Refer to Example 10-1 Displaying Configuration on an AlphaServer P00 show config Example 10-1 Displaying Configuration on an AlphaServer 4100 Example 10-2 Displaying Devices on an AlphaServer Example 10-2 Displaying Devices on an AlphaServer 4100 Example 10-3 Displaying Configuration on an AlphaServer Example 10-4 Displaying Devices on an AlphaServer P00show pk Qlogic ISP1020 devices KZPBA-CBs as isp0 and isp1 with disks P00 show isp Example 10-8 Setting the KZPBA-CB Scsi Bus ID Example 10-9 Setting KZPSA-BB Scsi Bus ID and Speed KZPSA-BB and KZPBA-CB Termination Resistors Updating the KZPSA-BB Adapter Firmware UPD update pkb0 Page Worldwide ID-to-Disk Name Conversion Table Table A-1 Converting Storageset Unit Numbers to Disk NamesPage Index Init, 6-25, 6-48, 6-50, 6-55 TZ887 Use, 6-62 10-19 SRM console, 4-7t, 7-4, 10-5t Srom TL894 TL895 Hwmgr LFU, 10-18 booting, 10-18 starting, 10-18 updating firmware Setting, 6-30 See subscriber connector SCM MUC KZPBA-CB, 4-9t, 10-4t, 10-7t KZPSA, 10-4t, 10-7t DWZZA, 2-11 upgrading How to Order Tru64 Unix Documentation Name Order NumberPage Reader’s Comments Spit Brook RD Nashua NH

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