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1. Getting Started With Solaris Volume Manager 2. Storage Management Concepts 3. Solaris Volume Manager Overview 4. Solaris Volume Manager for Sun Cluster (Overview) 5. Configuring and Using Solaris Volume Manager (Scenario) 8. RAID-0 (Stripe and Concatenation) Volumes (Overview) 9. RAID-0 (Stripe and Concatenation) Volumes (Tasks) 10. RAID-1 (Mirror) Volumes (Overview) 11. RAID-1 (Mirror) Volumes (Tasks) 12. Soft Partitions (Overview) Background Information for Creating RAID-5 Volumes Overview of Checking Status of RAID-5 Volumes Overview of Replacing and Enabling Slices in RAID-5 Volumes 16. Hot Spare Pools (Overview) 20. Maintaining Solaris Volume Manager (Tasks) 21. Best Practices for Solaris Volume Manager 22. Top-Down Volume Creation (Overview) 23. Top-Down Volume Creation (Tasks) 24. Monitoring and Error Reporting (Tasks) 25. Troubleshooting Solaris Volume Manager (Tasks) A. Important Solaris Volume Manager Files B. Solaris Volume Manager Quick Reference |
Scenario—RAID-5 VolumesRAID-5 volumes allow you to have redundant storage without the overhead of RAID-1 volumes, which require two times the total storage space to provide data redundancy. By setting up a RAID-5 volume, you can provide redundant storage of greater capacity than you could achieve with a RAID-1 volume on the same set of disk components. In addition, with the help of hot spares (see Chapter 16, Hot Spare Pools (Overview) and specifically How Hot Spares Work), you can achieve nearly the same level of safety. The drawbacks are increased write time and markedly impaired performance in the event of a component failure. However, those tradeoffs might be insignificant for many situations. The following example, drawing on the sample scenario explained in Chapter 5, Configuring and Using Solaris Volume Manager (Scenario), describes how RAID-5 volumes can provide extra storage capacity. Other scenarios for RAID-0 and RAID-1 volumes used 6 slices (c1t1d0, c1t2d0, c1t3d0, c2t1d0, c2t2d0, c2t3d0) on 6 disks, spread over 2 controllers, to provide 27 Gbytes of redundant storage. By using the same slices in a RAID-5 configuration, 45 Gbytes of storage is available. Also, the configuration can withstand a single component failure without data loss or access interruption. By adding hot spares to the configuration, the RAID-5 volume can withstand additional component failures. The most significant drawback to this approach is that a controller failure would result in data loss to this RAID-5 volume, while it would not with the RAID-1 volume described in Scenario--RAID-1 Volumes (Mirrors). |
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