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Troubleshooting

6-10

5. Hard disk shows Conflict state

The Conflict state indicates that the hard disk contains valid RAID

configurations but the controller cannot work with such configurations.

If the conflict is because the cache unit size of the controller is bigger

than the stripe size of the logical disk on the hard disks, you can change

the cache unit size (see 2.7.16 Miscellaneous on page 2-56) and restart

the system to accommodate the logical disk. The cache management

algorithm requires that the cache unit size has to be equal to or smaller

than the stripe size of any logical disks managed by the RAID controller.

The conflict might also be because there has been a disk group with the

same disk group ID of the hard disks. You can use Array Roaming Utilities

(see 2.7.12 Array roaming on page 2-52) to import the hard disks to form a

disk group with a new disk group ID.

Other configuration conflicts might be caused incompatible firmware

version. You’re required to erase the configuration information on the

hard disks for your RAID system to use the hard disks. Or, contact your

system supplier for solutions.

6. Disk group enters degraded mode.

Make sure that there are member disks available. Use the Array Recovery

Utility to restore the disks to the degraded disk group (see 2.7.13 Array

recovery on page 2-53).

7. Faulty logical disks or volumes cannot be recovered

You are required to recover a disk group before recovering its logical

disks. And similarly, to recover a volume, you’re required to recover its

logical disks.

6.7 Redundant Controller and MPIO

1. The replacement controller stops boot-up with LCD

messages

When a replacement controller is online installed to the RAID system, the

two controllers will synchronize with each other. If there is configuration

conflict discovered (see Section 5.2), the replacement controller will stop

boot-up. The beeper alerts, and the LCD shows the following messages:

(A) CONTR MOD UNEQ: the two controllers are of different model

(B) DB UNEQ: the two controllers have different daughter board

(D) MEM SZ UNEQ: the two controllers install memory of different size

(E) BBM INSTL UNEQ: one controller has BBM, while the other has no BBM