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Solaris Virtualization Product Overview
1. Introduction to Solaris 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)
13. Creating and Administering Resource Pools (Tasks)
14. Resource Management Configuration Example
Configuration to Be Consolidated
15. Resource Control Functionality in the Solaris Management Console
16. Introduction to Solaris Zones
17. Non-Global Zone Configuration (Overview)
18. Planning and Configuring Non-Global Zones (Tasks)
19. About Installing, Halting, Cloning, and Uninstalling Non-Global Zones (Overview)
20. Installing, Booting, Halting, Uninstalling, and Cloning Non-Global Zones (Tasks)
21. Non-Global Zone Login (Overview)
22. Logging In to Non-Global Zones (Tasks)
23. Moving and Migrating Non-Global Zones (Tasks)
24. About Packages and Patches on a Solaris System With Zones Installed (Overview)
25. Adding and Removing Packages and Patches on a Solaris System With Zones Installed (Tasks)
26. Solaris Zones Administration (Overview)
27. Administering Solaris Zones (Tasks)
28. Troubleshooting Miscellaneous Solaris Zones Problems
29. About Branded Zones and the Linux Branded Zone
30. Planning the lx Branded Zone Configuration (Overview)
31. Configuring the lx Branded Zone (Tasks)
32. About Installing, Booting, Halting, Cloning, and Uninstalling lx Branded Zones (Overview)
33. Installing, Booting, Halting, Uninstalling and Cloning lx Branded Zones (Tasks)
34. Logging In to lx Branded Zones (Tasks)
35. Moving and Migrating lx Branded Zones (Tasks)
36. Administering and Running Applications in lx Branded Zones (Tasks)
37. Sun xVM Hypervisor System Requirements
38. Booting and Running the Sun xVM Hypervisor
40. Using virt-install to Install a Domain
Viewing the Configuration
To view the framework configuration, which also contains default elements created by the system, type:
# pooladm
system host
string system.comment
int system.version 1
boolean system.bind-default true
int system.poold.pid 177916
string system.poold.objectives wt-load
pool dev_pool
int pool.sys_id 125
boolean pool.default false
boolean pool.active true
int pool.importance 1
string pool.comment
string pool.scheduler IA
pset dev_pset
pool appserver_pool
int pool.sys_id 124
boolean pool.default false
boolean pool.active true
int pool.importance 1
string pool.comment
string pool.scheduler TS
pset app_pset
pool db_pool
int pool.sys_id 123
boolean pool.default false
boolean pool.active true
int pool.importance 1
string pool.comment
string pool.scheduler FSS
pset db_pset
pool tp_pool
int pool.sys_id 122
boolean pool.default false
boolean pool.active true
int pool.importance 1
string pool.comment
string pool.scheduler TS
pset tp_pset
pool pool_default
int pool.sys_id 0
boolean pool.default true
boolean pool.active true
int pool.importance 1
string pool.comment
string pool.scheduler TS
pset pset_default
pset dev_pset
int pset.sys_id 4
string pset.units population
boolean pset.default false
uint pset.min 0
uint pset.max 2
string pset.comment
boolean pset.escapable false
uint pset.load 0
uint pset.size 0
string pset.poold.objectives locality tight; utilization < 80
pset tp_pset
int pset.sys_id 3
string pset.units population
boolean pset.default false
uint pset.min 2
uint pset.max 8
string pset.comment
boolean pset.escapable false
uint pset.load 0
uint pset.size 0
string pset.poold.objectives locality tight; 2: utilization < 80
cpu
int cpu.sys_id 1
string cpu.comment
string cpu.status on-line
cpu
int cpu.sys_id 2
string cpu.comment
string cpu.status on-line
pset db_pset
int pset.sys_id 2
string pset.units population
boolean pset.default false
uint pset.min 4
uint pset.max 6
string pset.comment
boolean pset.escapable false
uint pset.load 0
uint pset.size 0
string pset.poold.objectives locality tight; utilization < 80
cpu
int cpu.sys_id 3
string cpu.comment
string cpu.status on-line
cpu
int cpu.sys_id 4
string cpu.comment
string cpu.status on-line
cpu
int cpu.sys_id 5
string cpu.comment
string cpu.status on-line
cpu
int cpu.sys_id 6
string cpu.comment
string cpu.status on-line
pset app_pset
int pset.sys_id 1
string pset.units population
boolean pset.default false
uint pset.min 1
uint pset.max 2
string pset.comment
boolean pset.escapable false
uint pset.load 0
uint pset.size 0
string pset.poold.objectives locality tight; utilization < 80
cpu
int cpu.sys_id 7
string cpu.comment
string cpu.status on-line
pset pset_default
int pset.sys_id -1
string pset.units population
boolean pset.default true
uint pset.min 1
uint pset.max 4294967295
string pset.comment
boolean pset.escapable false
uint pset.load 0
uint pset.size 0
cpu
int cpu.sys_id 0
string cpu.comment
string cpu.status on-lineA graphic representation of the framework follows.
Figure 14-1 Server Consolidation Configuration
Note - In the pool db_pool, the standalone database instance is guaranteed 75 percent of the CPU resource.
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