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Drive failure alert features
Interim data recovery
Recovery ROM
Fault management in supported RAID configurations
If a physical disk fails in RAID 1, 1+0, 5, 50, ADG, or 60, the system still processes I/O requests,
but at a reduced performance level. Replace the failed physical disk as soon as possible to restore
performance and full fault tolerance for the logical drive it belongs to.
The risk of continuing operations without replacing a failed physical disk varies depending on the
RAID level that has been configured:
RAID 1
RAID 1+0
RAID 5
RAID 50 (RAID 5+0)
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Controller overview
controller that failure is imminent. Thus, you can back up
data and replace the disk drive before failure occurs.
NOTE:
An online spare does not become active and start
rebuilding when an imminent failure alert is sent, because
the degraded disk has not failed yet and is still online. The
online spare is activated only after a disk in an array fails.
Sends an alert message to Event Monitoring Services (EMS)
when a physical disk or a logical drive fails.
Occurs if a disk fails in a fault-tolerant configuration.
A redundancy feature that ensures continuous system
availability by providing a backup ROM. This feature
protects against corruption of a ROM image.
For example, if a power fluctuation occurs during a ROM
upgrade, the ROM image could be corrupted. In this
instance, the server restarts using the remaining good copy
of the ROM image. When you upgrade the ROM, the
inactive image (the one not being used by the system) is
upgraded.
There is not normally a noticeable difference in operation.
However, when you use Recovery ROM for the first time,
both ROM images are upgraded, causing a boot delay of
about 60 seconds.
RAID 1 is configured with a single mirrored pair of disks. If one
physical disk fails, the remaining disk in the mirrored pair can still
provide all data.
A RAID 1+0 configuration has a minimum of four physical disks and
the total number of physical disks is divisible by two to support
mirrored pairs. In RAID 1+0, if a physical disk fails, the remaining
disk in a mirrored pair still provides all data on the failed disk. Several
physical disks in an array can fail without incurring data loss, as long
as no two failed physical disks belong to the same mirrored pair.
A RAID 5 configuration has a minimum of three physical disks, plus
one or more online spares; one disk is used for a single parity scheme
to rebuild data if a physical disk fails. If a disk fails, data is recovered
using a parity formula and is typically written to an online spare disk.
If a second disk fails before the data from the initial disk failure is
rebuilt on the online spare disk, the logical drive fails and data is
lost.
RAID 50 is a RAID 0 array striped across RAID 5 parity groups. RAID
50 requires a minimum of six physical disks, plus one or more online
spares. The RAID 0 striping provides increased read performance
and fault tolerance. RAID 50 uses the RAID 5 single parity scheme
to rebuild data if one physical disk fails per RAID 5 parity group.
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