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Oracle Solaris 11.1 Administration: Oracle Solaris Zones, Oracle Solaris 10 Zones, and Resource Management Oracle Solaris 11.1 Information Library |
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Oracle Solaris 11.1 Administration: Oracle Solaris Zones, Oracle Solaris 10 Zones, and Resource Management Oracle Solaris 11.1 Information Library |
Part I Oracle Solaris Resource Management
1. Introduction to Resource Management
2. Projects and Tasks (Overview)
3. Administering Projects and Tasks
4. Extended Accounting (Overview)
5. Administering Extended Accounting (Tasks)
6. Resource Controls (Overview)
7. Administering Resource Controls (Tasks)
8. Fair Share Scheduler (Overview)
9. Administering the Fair Share Scheduler (Tasks)
10. Physical Memory Control Using the Resource Capping Daemon (Overview)
11. Administering the Resource Capping Daemon (Tasks)
Introduction to Dynamic Resource Pools
About Enabling and Disabling Resource Pools and Dynamic Resource Pools
Implementing Pools on a System
SPARC: Dynamic Reconfiguration Operations and Resource Pools
Directly Manipulating the Dynamic Configuration
Managing Dynamic Resource Pools
Configuration Constraints and Objectives
pset.min Property and pset.max Property Constraints
cpu.pinned Property Constraint
pool.importance Property Constraint
Configuration Objectives Example
poold Functionality That Can Be Configured
Configuration Information Logging
Monitoring Information Logging
Optimization Information Logging
How Dynamic Resource Allocation Works
Determining Available Resources
Identifying a Resource Shortage
Determining Resource Utilization
Identifying Control Violations
Determining Appropriate Remedial Action
Using poolstat to Monitor the Pools Facility and Resource Utilization
Tuning poolstat Operation Intervals
Commands Used With the Resource Pools Facility
13. Creating and Administering Resource Pools (Tasks)
14. Resource Management Configuration Example
15. Introduction to Oracle Solaris Zones
16. Non-Global Zone Configuration (Overview)
17. Planning and Configuring Non-Global Zones (Tasks)
18. About Installing, Shutting Down, Halting, Uninstalling, and Cloning Non-Global Zones (Overview)
19. Installing, Booting, Shutting Down, Halting, Uninstalling, and Cloning Non-Global Zones (Tasks)
20. Non-Global Zone Login (Overview)
21. Logging In to Non-Global Zones (Tasks)
22. About Zone Migrations and the zonep2vchk Tool
23. Migrating Oracle Solaris Systems and Migrating Non-Global Zones (Tasks)
24. About Automatic Installation and Packages on an Oracle Solaris 11.1 System With Zones Installed
25. Oracle Solaris Zones Administration (Overview)
26. Administering Oracle Solaris Zones (Tasks)
27. Configuring and Administering Immutable Zones
28. Troubleshooting Miscellaneous Oracle Solaris Zones Problems
Part III Oracle Solaris 10 Zones
29. Introduction to Oracle Solaris 10 Zones
30. Assessing an Oracle Solaris 10 System and Creating an Archive
31. (Optional) Migrating an Oracle Solaris 10 native Non-Global Zone Into an Oracle Solaris 10 Zone
32. Configuring the solaris10 Branded Zone
33. Installing the solaris10 Branded Zone
Resource pools enable you to separate workloads so that workload consumption of certain resources does not overlap. This resource reservation helps to achieve predictable performance on systems with mixed workloads.
Resource pools provide a persistent configuration mechanism for processor set (pset) configuration and, optionally, scheduling class assignment.
Figure 12-1 Resource Pool Framework
A pool can be thought of as a specific binding of the various resource sets that are available on your system. You can create pools that represent different kinds of possible resource combinations:
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By grouping multiple partitions, pools provide a handle to associate with labeled workloads. Each project entry in the /etc/project file can have a single pool associated with that entry, which is specified using the project.pool attribute.
When pools are enabled, a default pool and a default processor set form the base configuration. Additional user-defined pools and processor sets can be created and added to the configuration. A CPU can only belong to one processor set. User-defined pools and processor sets can be destroyed. The default pool and the default processor set cannot be destroyed.
The default pool has the pool.default property set to true. The default processor set has the pset.default property set to true. Thus, both the default pool and the default processor set can be identified even if their names have been changed.
The user-defined pools mechanism is primarily for use on large machines of more than four CPUs. However, small machines can still benefit from this functionality. On small machines, you can create pools that share noncritical resource partitions. The pools are separated only on the basis of critical resources.
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