Rosewill RSV-S8 Server User Manual


 
Server RSV-S8 User Manual
2.3 RAID LEVELS
2.3.1 DISK STRIPING (RAID 0)
Striping is a performance-oriented, non-redundant data mapping technique. While Striping is discussed as
a RAID Group type, it is does not provide any fault tolerance. With modern SATA and ATA bus mastering
technology, multiple I/O operations can be performed in parallel, enhancing data throughput. Striping arrays
use multiple disks to form a larger virtual disk. The figure below illustrates a three-disk stripe set. Stripe one
is written to disk one, stripe two to disk two, and so forth. RAID 0 sets can be comprised of two, three, or
four drives. If the sizes of the disk segments are different, the smallest disk segment will limit the overall size
of the RAID Group.
2.3.2 DISK MIRRORING (RAID 1)
Disk mirroring creates an identical twin for a selected disk by having the data simultaneously written to two
disks. This redundancy provides instantaneous protection from a single disk failure. If a read failure occurs
on one drive, the system reads the data from the other drive. RAID 1 sets are comprised of two drives,
and a third drive can be allocated as a spare in case one of the drives in the set fails. If the sizes of the disk
segments are different, the smallest disk segment will limit the overall size of the RAID Group.
2.3.3 DISK MIRRORING AND STRIPING (RAID 10)
RAID 10 combines the features of both RAID 0 and RAID 1. Performance is provided through the use of
Striping (RAID 0), while adding the fault tolerance of Mirroring (RAID 1). The implementation of RAID 10
requires four drives. The drives are assigned as two sets of striped pairs.
The data is written to RAID Group A, which is mirrored (RAID 1) and provides data redundancy. Alternating
blocks of data are then striped across another RAID 1 mirrored set, shown as Set B in the figure above. This
provides improved speed.
Under certain circumstances, a RAID 10 set can sustain multiple simultaneous drive failures.
2.3.4 PARITY RAID (RAID 5)
Parity or RAID 5 adds fault tolerance to Disk Striping by including parity information with the data. Parity
RAID dedicates the equivalent of one disk for storing parity stripes. The data and parity information is
arranged on the disk array so that parity is written to different disks. There are at least 3 members to a
Parity RAID set. The following example illustrates how the parity is rotated from disk to disk. The following
example illustrates how the parity is rotated from disk to disk.
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