HP ProLiant DL380 G5 Server User Manual

•

Shutdown—Indicates that the drive array enclosure that contains the logical drive has overheated. The logical

drive is no longer functioning.

•

Expanding—Indicates that the logical drive is currently doing Automatic Data Expansion. During Automatic

Data Expansion, fault tolerance algorithms redistribute logical drive data to the newly added physical drive.

•

Not available—Indicates that the logical drive is currently unavailable. If a logical drive is expanding and the

new configuration frees additional disk space, this free space can be configured into another logical volume. If

this is done, the new volume is set to not available.

•

Queued for expansion—Indicates that the logical drive is ready for Automatic Data Expansion. The logical drive

is in the queue for expansion.

•

Multipath access degraded—Indicates that all the physical drives in the logical drive were previously accessible

by at least two paths, but now at least one physical drive within that logical drive is accessibly by only a single

path due to a hardware fault or a hardware configuration change (e.g. mistakenly replacing a dual ported

drive with a single ported drive.)

•

Erasing—Indicates that the logical drive is currently being erased.

•

Unknown—You may need to upgrade your software.
When the status is Rebuilding one of the following values displays to indicate the progress of the rebuild:

•

Percent Rebuild Complete—Displays the percent complete of the rebuild. When the value reaches 100, the

rebuilding process is complete. The drive array continues to operate in interim recovery mode while the

drive is rebuilding.

•

Rebuild Blocks Left—Displays the number of blocks of data that still need to be redistributed. When the

value reaches 0, the rebuilding process is complete. The array continues to operate in interim recovery

mode while the drive is rebuilding.

•

Rebuilding Drive—Identifies the physical drive that failed. The logical drive is rebuilding using a spare drive

in place of this failed drive.

When the status is Expanding one of the following values displays to indicate the progress of the expansion.

•

Percent Expand Complete—Displays the percent complete of the expansion. When a logical volume is

expanding, the drive must redistribute the logical volume data across the physical drives. When the value

reaches 100, the expansion process is complete.

•

Expand Blocks Left—Displays the number of blocks of data that still need to be redistributed. When the

value reaches 0, the expansion process is complete. The array continues to operate normally while the drive

is expanding.

•

Fault Tolerance—Displays the fault tolerance mode of the logical drive. To change the fault tolerance mode,

run the Array Configuration Utility.
The following values are valid for the Logical Drive Fault Tolerance:

•

None—(RAID 0) fault tolerance is not enabled. If a physical drive reports an error, the data cannot be

recovered by the Drive Array.

•

Mirroring—(RAID 1/RAID 0+1) is the highest level of fault tolerance. It is the only method offering fault

tolerance protection if no more than two physical drives are selected. Drive mirroring creates fault

tolerance by storing duplicate data on two drives. There must be an even number of drives. This is the

most costly fault tolerance method because it requires 50 percent of the drive capacity to store the

redundant data.

•

Data Guarding—(RAID 4) assures data reliability while using only a small percent of the logical drive

storage capacity. A designated, single physical drive contains parity data. If a drive fails, the controller

uses the data on the parity drive and the data on the remaining drives to reconstruct data from the

failed drive. This allows the system to continue operating with slightly reduced performance until you

replace the drive.

•

Distributed Data Guarding—(RAID 5) stores parity data across all the physical drives in the array and

allows more simultaneous read operations and higher performance than data guarding (RAID 4). If a

drive fails, the controller uses the parity data and the data on the remaining drives to reconstruct data

from the failed drive. The system then continues operating with a slightly reduced performance until you

replace the failed drive.

•

Advanced Data Guarding—(RAID 6) is the fault tolerance method that provides the highest level of data

protection. It stripes data and parity across all the physical drives in the configuration to ensure the

uninterrupted availability of uncorrupted data. This fault-tolerance method is similar to RAID 5 in that

parity data is distributed across all drives in the array, except in RAID ADG the capacity of multiple

drives is used to store parity data. Assuming the capacity of 2 drives is used for parity data, this allows

continued operation despite simultaneous failure of any 2 drives in the array, whereas RAID 4 and

RAID 5 can only sustain failure of a single drive.

Agent information 48