Using Network Raid In A Cluster; Using Disk Raid With Network Raid In A Cluster - HP StoreVirtual 4000 User Manual

NOTE: If you plan on using clusters with only a single storage system, use RAID 1 and RAID 10,
RAID 5, or RAID 6 to ensure data redundancy within that storage system.

Using Network RAID in a cluster

A cluster is a group of storage systems across which data can be protected by using Network
RAID. Network RAID protects against the failure of a RAID disk set within a storage system, failure
of an entire storage system or external failures like networking or power. For example, if an entire
storage system in a cluster becomes unavailable, data reads and writes continue because the
missing data can be obtained from the other storage systems.

Using disk RAID with Network RAID in a cluster

Always use Network RAID in a cluster to protect volumes across storage systems. The redundancy
provided by RAID 10, RAID 5, or RAID 6 ensures availability at the storage system level. Using
Network RAID for volumes in a cluster ensures availability at the cluster level. For example:
Using Network RAID, up to three copies of a volume can be created on a cluster of three
storage systems. The Network RAID configuration ensures that two of the three storage systems
can go offline and the volume is still accessible.
Configuring RAID 10 on these storage systems means that each of these three copies of the
volume is stored on two disks within the storage system, for a total of six copies of each volume.
For a 50 GB volume, 300 GB of disk capacity is used.
RAID 5 uses less disk capacity than RAID 1 or RAID 10, so it can be combined with Network RAID
and still use capacity efficiently. One benefit of configuring RAID 5 in storage systems that use
Network RAID in a cluster is that if a single disk goes down, the data on that storage system can
be rebuilt using RAID instead of requiring a complete copy from another storage system in the
cluster. Rebuilding the disks within a single set is faster and creates less of a performance impact
to applications accessing data than copying data from another storage system in the cluster.
RAID 6 provides similar space benefits to RAID 5, with the additional protection of being able to
survive the loss of up to two drives.
NOTE: If you are protecting volumes across a cluster, configuring the storage system for RAID 1
or RAID 10 consumes half the capacity of the storage system. Configuring the storage system for
RAID 5 provides redundancy within each storage system while allowing most of the disk capacity
to be used for data storage. RAID 6 provides greater redundancy on a single storage system, but
consumes more disk space than RAID 5.
Table 8 (page 31)
levels on stand-alone storage systems compared with those RAID levels with Network RAID
configured volumes in a cluster.
Table 8 Data availability and safety in RAID configurations
Configuration
Stand-alone storage systems
Stand-alone storage systems, RAID 1,
RAID 10, RAID 10 + spare
Stand-alone storage systems, RAID 5
Stand-alone storage systems, RAID 6
Volumes configured with Network
RAID- 1 0 or greater on clustered
storage systems, RAID 5
summarizes the differences in data availability and safety of the different RAID
Data safety and availability during
disk failure
No
Yes. In any configuration, 1 disk per
mirrored pair can fail.
Yes, for 1 disk per array
Yes, for 2 disks per array
Yes. 1 disk per RAID set can fail
without copying from another storage
system in the cluster.
Data availability if an entire individual
storage system fails or if network
connection to a storage system is lost
No
No
No
No
Yes
Planning the RAID configuration 31