CLI Guide

Omcong Chassis Leds Or Omcong Mainsystem Leds

Use the omcong chassis leds or omcong mainsystem leds command to specify when to ash a chassis fault LED or chassis identication

LED. This command also allows you to clear the LED of the system hard drive. The following table displays the valid parameters for the

command.

Table 51. Valid Parameters Of Omcong Chassis Leds Or Omcong Mainsystem Leds

name=value pair 1 name=value pair 2 Description

index=<n> NA Number of the chassis where the LED

resides (defaults to chassis 0, main system

chassis).

led=fault severity=warning | critical Select to ash the LED either when a

warning event occurs or when a critical

event occurs.

led=hdfault action=clear Sets the number of faults for the hard drive

back to zero (0).

led=identify ash=o | on time-out=<n> Sets the chassis identication LED to o or

on. Set the time-out value for the LED to

ash to a number of seconds.

Omcong Chassis Memorymode Or Omcong Mainsystem

Memorymode

Use the omcong chassis memorymode or omcong mainsystem memorymode command to specify the redundancy mode to use for the

system memory in case of memory errors.

Redundant memory enables a system to switch to other available memory modules if unacceptable errors are detected in the modules that

the system is currently using. The omcong chassis memorymode or omcong mainsystem memorymode command allows you to disable

redundancy; when you disable redundancy, you instruct the system not to switch to other available memory modules when the memory

module the system is using begins to encounter errors. To enable redundancy, choose among spare, mirror, raid, and DDDC.

Spare mode disables a bank of system memory in which a correctable memory event is detected, enables the spare bank, and copies all the

data from the original bank to the spare bank. Spare bank requires at least three banks of identical memory; the operating system does not

recognize the spare bank.

Mirror mode switches to a redundant copy of memory when an uncorrectable memory event is detected. After switching to the mirrored

memory, the system does not switch back to the original system memory until the next reboot. The operating system does not recognize

half of the installed system memory in this mode.

RAID mode provides an extra level of memory checking and error recovery at the expense of some memory capacity.

The DDDC mode enables double device data correction. This ensures data availability after hard failure of x4 DRAM.

NOTE

: This command is applicable only on systems prior to PowerEdge 12G systems. On PowerEdge 12G systems, memorymode

is grouped under Memory Settings of the BIOS setup group. For more information, see BIOS Setup Groups on PowerEdge 12G

Systems.

To congure the attribute on systems prior to PowerEdge 12G, see the following table. The table displays the valid parameters for the

command.

Omcong

Managing Components Using The Instrumentation Service 79