HP-UX Virtual Partitions Administrator's Guide (includes A.04.06 and A.05.04)
Table Of Contents
- HP-UX Virtual Partitions Administrator’s Guide
- Table of Contents
- About This Document
- 1 Introduction
- 2 How vPars and Its Components Work
- Partitioning Using vPars
- vPars Monitor and Database
- Boot Sequence
- Virtual Consoles
- Security
- EFI and Integrity Notes
- Integrity Differences Relative to PA-RISC
- Comparing vPars on PA-RISC and Integrity
- Comparing vPars Versions
- Resource Migration and Required States
- Transitioning from vPars A.03.xx to vPars A.04.xx/A.05.xx (CPU Syntax and Rules)
- 3 Planning Your System for Virtual Partitions
- Full ioscan Output of Non-Cellular System Named winona
- Full ioscan Output of Cellular (nPartitionable) System Named keira
- Planning, Installing, and Using vPars with an nPartitionable Server
- Planning Your Virtual Partitions
- Mixed HP-UX 11i v1/v2 vPars Environments in vPars A.04.05
- Mixed HP-UX 11i v2/v3 vPars Environments in vPars A.05.xx
- Mixed HP-UX 11i v1/v2/v3 vPars Environments in vPars A.05.03
- 4 Installing, Updating, or Removing vPars and Upgrading Servers with vPars
- Notes, Cautions, and Other Considerations Before You Update or Install vPars
- Bundle Names
- Setting Up the Ignite-UX Server
- Ignite-UX, the LAN, the LAN card, and vparboot -I
- Updating from vPars A.04.xx to A.05.xx
- Updating from vPars A.03.xx to Mixed HP-UX 11i v1/v2 vPars (A.03.05 and A.04.05) Environment
- Migrating from vPars A.03.xx to Mixed HP-UX 11i v1/v2/v3 vPars (A.03.05, A.04.02 or later, A.05.03)
- Updating from vPars A.04.xx to Mixed HP-UX 11i v2/v3 vPars (A.04.xx and A.05.xx) Environment
- Updating from vPars A.03.xx to A.05.xx
- Updating from vPars A.03.xx to A.04.xx
- Updating vPars A.03.xx to vPars A.03.05
- Updating from vPars (A.02.xx or A.03.xx) to A.03.xx
- Applying a vPars Sub-System Patch
- Upgrading Integrity Servers from the sx1000 to sx2000 Chipset
- Upgrading HP 9000 Servers from the sx1000 to sx2000 Chipset
- Upgrading Backplanes from PCI to PCI-X
- Updates Involving VPARSBASE
- Installing vPars with Ignite-UX on PA-RISC
- Installing vPars with Ignite-UX on Integrity
- Installing vPars with Software Distributor
- Removing the vPars Product
- 5 vPars Monitor and Shell Commands
- Notes on Examples in this Chapter
- Modes: Switching between nPars and vPars Modes (Integrity Only)
- EFI Boot Disk Paths, including Disk Mirrors, and vparefiutil (Integrity Only)
- vPars Monitor: Booting the vPars Monitor
- vPars Monitor: Accessing the vPars Monitor Prompt
- vPars Monitor: Using vPars Monitor Commands
- vPars Monitor: Using the vPars Monitor Commands from ISL or EFI
- Commands: vPars Manpages
- Commands: vPars Commands Logging
- Commands: Displaying vPars Monitor and Resource Information (vparstatus)
- Virtual Partition States
- vparstatus Output Examples
- vparstatus: Summary Information
- vparstatus: Verbose Information
- vparstatus: Available Resources
- vparstatus: CPU Information on vPars A.04/A.05
- vparstatus: Dual-Core CPUs
- vparstatus: Pending Migrating CPUs Operations
- vparstatus: Pending Migrating Memory Operations
- vparstatus: Base and Float Memory Amounts
- vparstatus: Pending nPartition Reboot for Reconfiguration
- vparstatus: vPars Monitor and Database Information
- Managing: Creating a Virtual Partition
- Managing: Removing a Virtual Partition
- Managing: Modifying Attributes of a Virtual Partition
- Booting a Virtual Partition
- Shutting Down or Rebooting a Virtual Partition
- Shutting Down or Rebooting the nPartition (Or Rebooting the vPars Monitor)
- Setboot and System-wide Stable Storage
- Using Primary and Alternate Boot Paths
- Autoboot
- Single-User Mode
- Other Boot Modes
- Resetting a Virtual Partition
- Using an Alternate Partition Database File
- Managing Resources With Only One Virtual Partition
- 6 CPU, Memory, and I/O Resources (A.05.xx)
- I/O: Topics
- I/O: Concepts and Functionality
- I/O: Adding or Deleting LBAs
- I/O: Allocation Notes
- Memory: Topics
- Memory: Concepts and Functionality
- Memory: Assigning (Adding) or Deleting by Size (ILM)
- Memory: Assigning (Adding) Or Deleting by Size (CLM)
- Memory: Assigning (Adding) Or Deleting by Address Range
- Memory: Available and Assigned Amounts
- Memory: Converting Base Memory to Float Memory
- Memory: Granularity Concepts
- Memory: Granularity Issues (Integrity and PA-RISC)
- Memory: Setting the Granularity Values (Integrity)
- Memory: Setting the Granularity Values (PA-RISC)
- Memory: Notes on vPars Syntax, Rules, and Output
- CPU: Topics
- CPU: Concepts and Functionality
- CPU: Specifying Min and Max Limits
- CPU: Adding and Deleting by Total
- CPU: Adding or Deleting by CLP (Cell Local Processor)
- CPU: Adding or Deleting by Hardware Path
- CPU: Notes on vPars Syntax, Rules, and Output
- CPU: Dual-Core Processors
- CPU: Hyperthreading ON/OFF (HT ON/OFF)
- CPUs: Managing I/O Interrupts
- CPU: CPU Monitor (Formerly Known As LPMC Monitor)
- Memory, CPU: Canceling Pending Operations
- 7 CPU, Memory, and I/O Resources (A.04.xx)
- I/O: Concepts
- I/O: Adding or Deleting LBAs
- I/O: Allocation Notes
- Memory: Concepts and Functionality
- Memory: Assigning by Size (ILM)
- Memory: Assigning by Size (CLM)
- Memory: Specifying Address Range
- Memory: Granularity Concepts
- Granularity Issues (Integrity and PA-RISC)
- Memory: Choosing a Granularity Value and Boot Time (Integrity)
- Memory: Setting the Granularity Values (Integrity)
- Memory: Setting the Granularity Values (PA-RISC)
- Memory: Allocation Notes
- CPU
- CPU: Boot Processor and Dynamic CPU Definitions
- CPU: Specifying Min and Max Limits
- CPU: Adding and Deleting by Total
- CPU: Adding or Deleting by CLP (Cell Local Processor)
- CPU: Adding or Deleting by Hardware Path
- CPU: Syntax, Rules, and Notes
- Managing I/O Interrupts
- CPU: Using iCAP (Instant Capacity on Demand) with vPars (vPars A.04.xx and iCAP B.07)
- CPU: Dual-Core Processors
- CPU: CPU Monitor (Formerly Known As LPMC Monitor)
- 8 CPU, Memory, and I/O Resources (A.03.xx)
- I/O: Concepts
- I/O: Adding or Deleting LBAs
- I/O: Allocation Notes
- Memory: Concepts and Functionality
- Memory: Assigning by Size (ILM)
- Memory: Specifying Address Range
- Memory: Allocation Concepts and Notes
- CPU
- CPU: Specifying Min and Max Limits
- CPU: Bound and Unbound
- CPU: Determining Whether to Use Bound or Unbound
- CPU: Determining When to Specify a Hardware Path for a Bound CPU
- CPU: Adding and Removing Bound CPUs
- CPU: Adding a CPU as a Bound CPU
- CPU: Removing a Bound CPU
- CPU: Adding, Removing, and Migrating Unbound CPUs
- CPU: Managing I/O Interrupts
- CPU: Dual-Core Processors
- CPU: CPU Monitor (Formerly Known As LPMC Monitor)
- 9 nPartition Operations
- Basic Conceptual Points on using vPars within nPartitions
- nPartition Information
- Setting Hyperthreading (HT ON/OFF) and cpuconfig Primer
- Rebooting and Reconfiguring Conceptual Points
- Reconfiguring the nPartition
- Putting an nPartition into an Inactive State and Other GSP Operations
- Configuring CLM for an nPartition
- 10 Crash Processing and Recovery
- Crash Processing
- Network and Tape Recovery
- Using make_net_recovery within a vPars Environment
- Using make_tape_recovery Outside of a vPars Environment
- Using make_tape_recovery and Dual-media Boot
- Using make_tape_recovery within a vPars Environment
- Expert Recovery
- 11 vPars Flexible Administrative Capability
- Synopsis
- Terms and Definitions
- Flexible Administrative Capability Commands
- monadmin
- vparadmin
- Persistence across vPars Monitor Reboots
- vPars Commands
- Example vPars Monitor Scenario (monadmin)
- Example HP-UX Shell Scenario (vparadmin)
- A Command Successfully Executed
- A Command Not Executed Due to the Flexible Administrative Capability Feature
- Adding a Virtual Partition to the Designated-admin Virtual Partition List
- Deleting a Virtual Partition to the Designated-admin Virtual Partition List
- Listing the Virtual Partitions in the Designated-admin Virtual Partition List
- Changing the Flexible Administrative Capability Password
- Determining whether Flexible Administrative Capability is ON or OFF
- 12 Virtual Partition Manager (A.03.xx)
- A LBA Hardware Path to Physical I/O Slot Correspondence (PA-RISC only)
- B Problem with Adding Unbound CPUs to a Virtual Partition (A.03.xx)
- C Calculating the Size of Kernels in Memory (PA-RISC only)
- D Memory Usage with vPars in nPartitions
- E Moving from a Standalone to vPars
- F Supported Configurations for Memory Migration
- Glossary
- Index
0/0/2 ba Local PCI-X Bus Adapter (783)
0/0/2/1/0 lan HP A6825-60101 PCI 1000Base-T Adapter
0/0/4 ba Local PCI-X Bus Adapter (783)
0/0/6 ba Local PCI-X Bus Adapter (783)
0/0/6/1/0 fc HP Tachyon XL2 Fibre Channel Mass Storage Adapter
0/0/8 ba Local PCI-X Bus Adapter (783)
0/0/8/1/0 ba PCItoPCI Bridge
0/0/8/1/0/1/0 ext_bus SCSI C1010 Ultra160 Wide LVD
0/0/8/1/0/1/0.7 target
0/0/8/1/0/1/0.7.0 ctl Initiator
0/0/8/1/0/1/1 ext_bus SCSI C1010 Ultra160 Wide LVD
0/0/8/1/0/1/1.7 target
0/0/8/1/0/1/1.7.0 ctl Initiator
0/0/8/1/0/4/0 lan HP A6794-60001 PCI 1000Base-T
0/0/10 ba Local PCI-X Bus Adapter (783)
0/0/12 ba Local PCI-X Bus Adapter (783)
0/0/14 ba Local PCI-X Bus Adapter (783)
0/5 memory Memory
0/10 processor Processor
0/11 processor Processor
0/12 processor Processor
0/13 processor Processor
0/14 processor Processor
0/15 processor Processor
1 cell
1/0 ioa System Bus Adapter (805)
1/0/0 ba Local PCI Bus Adapter (782)
1/0/0/0/0 tty PCI SimpleComm (103c1290)
1/0/0/0/1 tty PCI Serial (103c1048)
1/0/0/3/0 ext_bus SCSI C1010 Ultra160 Wide LVD A6793-60001
1/0/0/3/0.6 target
1/0/0/3/0.6.0 disk HP 36.4GST336753LC
1/0/0/3/0.7 target
1/0/0/3/0.7.0 ctl Initiator
1/0/0/3/1 ext_bus SCSI C1010 Ultra Wide Single-Ended A6793-60001
1/0/0/3/1.7 target
1/0/0/3/1.7.0 ctl Initiator
1/0/1 ba Local PCI-X Bus Adapter (783)
1/0/1/1/0 ba PCItoPCI Bridge
1/0/1/1/0/1/0 ext_bus SCSI C1010 Ultra160 Wide LVD
1/0/1/1/0/1/0.7 target
1/0/1/1/0/1/0.7.0 ctl Initiator
1/0/1/1/0/1/1 ext_bus SCSI C1010 Ultra160 Wide LVD
1/0/1/1/0/1/1.7 target
1/0/1/1/0/1/1.7.0 ctl Initiator
1/0/1/1/0/4/0 lan HP A6794-60001 PCI 1000Base-T
1/0/2 ba Local PCI-X Bus Adapter (783)
1/0/4 ba Local PCI-X Bus Adapter (783)
1/0/4/1/0 ba PCItoPCI Bridge
1/0/4/1/0/4/0 fc HP 2 GB PCI/PCI-X Fibre Channel FC/GigE Dual
Port Combo Adapter
1/0/4/1/0/4/0.1 fcp FCP Domain
1/0/4/1/0/4/0.1.0.0.0 ext_bus FCP Array Interface
1/0/4/1/0/4/0.1.0.0.0.0 target
1/0/4/1/0/4/0.1.0.0.0.0.1 disk COMPAQ MSA1000 VOLUME
1/0/4/1/0/4/0.1.0.255.0 ext_bus FCP Device Interface
1/0/4/1/0/4/0.1.0.255.0.0 target
1/0/4/1/0/4/0.1.0.255.0.0.0 ctl COMPAQ MSA1000
1/0/4/1/0/6/0 lan HP A9784-60001 PCI/PCI-X 1000Base-T FC/GigE Combo
Adapter
1/0/6 ba Local PCI-X Bus Adapter (783)
1/0/8 ba Local PCI-X Bus Adapter (783)
1/0/10 ba Local PCI-X Bus Adapter (783)
1/0/12 ba Local PCI-X Bus Adapter (783)
1/0/12/1/0 ext_bus SCSI C1010 Ultra160 Wide LVD A6829-60101
1/0/12/1/0.7 target
1/0/12/1/0.7.0 ctl Initiator
1/0/12/1/0.8 target
1/0/12/1/0.8.0 disk HP 36.4GST336753LC
1/0/12/1/1 ext_bus SCSI C1010 Ultra160 Wide LVD A6829-60101
1/0/12/1/1.7 target
1/0/12/1/1.7.0 ctl Initiator
1/0/14 ba Local PCI-X Bus Adapter (783)
1/5 memory Memory
1/6 ipmi IPMI Controller
1/10 processor Processor
1/11 processor Processor
1/12 processor Processor
1/13 processor Processor
1/14 processor Processor
1/15 processor Processor
Planning, Installing, and Using vPars with an nPartitionable Server
When using vPars, the major difference between non-nPartitionable and nPartitionable systems
is the hardware path.
Planning, Installing, and Using vPars with an nPartitionable Server 49