Drive arrays and fault-tolerance methods 108
The group of physical drives containing the logical drive is called a
drive array,
or just
array
(denoted by A
n
in the figure). Because all the physical drives in an array are commonly configured into just one logical drive,
the term array is often used as a synonym for logical drive. However, an array can contain several logical
drives, each of a different size.
Each logical drive in an array is distributed across all of the physical drives within the array. A logical drive
can also extend across more than one port on the same controller, but it cannot extend across more than one
controller.
Drive failure, although rare, is potentially catastrophic. For arrays that are configured as shown in the
previous figure, failure of any physical drive in the array causes every logical drive in the array to suffer
irretrievable data loss. To protect against data loss due to physical drive failure, logical drives are configured
with
fault tolerance
("
Fault-tolerance methods
" on page
109
).
For any configuration except RAID 0, further protection against data loss can be achieved by assigning a
drive as an
online spare
(or
hot spare
). This drive contains no data and is connected to the same controller
as the array. When any other physical drive in the array fails, the controller automatically rebuilds
information that was originally on the failed drive to the online spare. The system is thus restored to full
RAID-level data protection, although it now no longer has an online spare. (However, in the unlikely event
that another drive in the array fails while data is being rewritten to the spare, the logical drive will still fail.)
When you configure an online spare, it is automatically assigned to all logical drives in the same array.
Additionally, you do not need to assign a separate online spare to each array. Instead, you can configure
one hard drive to be the online spare for several arrays if the arrays are all on the same controller.
Effects of a drive failure
When a drive fails, all logical drives that are in the same array are affected. Each logical drive in an array
might be using a different fault-tolerance method, so each logical drive can be affected differently.
•
RAID 0 configurations cannot tolerate drive failure. If any physical drive in the array fails, all RAID 0
logical drives in the same array also fail.
•
RAID 1+0 configurations can tolerate multiple drive failures if no failed drives are mirrored to one
another.
•
RAID 5 configurations can tolerate one drive failure.