You can remove and replace a faulty dual in-line memory module
(DIMM)from the enclosure. You can also use this procedure to add DIMMs
to increase the memory capacity of the node canister.
Before you begin
Notes:
The memory modules are sensitive to electrostatic-discharge (ESD). Take precautions to
avoid damage from static electricity. When you remove or replace this part, you must follow
recommended procedures for handling ESD-sensitive devices.
No tools are required to complete this task. Do not remove or loosen any screws.
About this task
Figure 1illustrates the physical layout of the four DIMM slots and CPU as
present inside the node canister. DIMM slot numbering, as seen in this figure, also appears embossed
on the adjacent fan assembly.
Figure 1. Location and numbering of the DIMM slots
Review Table 1 to understand
mapping between a DIMM slot and its corresponding CPU memory channel. The channel name is also
included in the slot label printed on the canister circuit board.
Table 1. Summary of slot numbers and channel names
Slot number
Channel Name
1
CH1
2
CH0
3
CH3
4
CH4
The number of DIMMs installed in each node canister depends on the enclosure memory
configuration. See Table 2 for valid memory configurations per node canister.
Procedure
DIMM Installation
considerations
The number of DIMMs installed in each node canister depends on the enclosure memory
configuration. Review for valid memory configurations per node canister.
Table 2. Summary of valid node canister memory configurations
Configuration
Node canister (total)
Slot 1
Slot 2
Slot 3
Slot 4
Base (ALG0)
32 GiB
32 GiB
Empty
Empty
Empty
Base (ALG0) with upgrade (ALGC)
128 GiB
32 GiB
32 GiB
32 GiB
32 GiB
Base (ALG1), or upgrade (ALGD)
256 GiB
64 GiB
64 GiB
64 GiB
64 GiB
In an operational enclosure, both node canisters always have the same memory configuration
except when you are upgrading node canister memory. To upgrade enclosure memory, one node canister
is upgraded at a time. The system logs an error when the node canister memory configurations differ.
After the second node canister in the enclosure is upgraded, the error is cleared and the nodes use
the upgraded memory.
Identifying failed DIMMs
Use the service assistant or the System
Event Log in the management GUI to obtain the system event log with error code 1022 and
the sense data. The sense data includes information that is also used to identify which DIMM is
faulty.
If a node error 510 is logged and event ID 073510, the sense data includes information such as,
the detected size of the DIMM in slot 1, 2, 3 and 4, followed by the expected size for each slot. Compare each detected
capacity with the expected size to determine which DIMMs are faulty. See Table 2 for permitted configurations and Figure 1 for the physical location
of each DIMM slot inside the node canister.
If a event ID 076101 is logged, the object ID of the event identifies the slot number of the
faulty DIMM. The sense data includes information on the channel name of the faulty DIMM, along with
manufacturer and serial number of the DIMM to aid identification. The channel name is another way to
refer to the slot number, as described in Table 1.
See the Replaceable units for the correct FRU
part number for each size of DIMM.
Removing the
DIMM
Important: Do not start service status on the node. Power off the node to replace a DIMM or run the
rmnode command to add DIMMs.
If you are upgrading memory of a node canister as
a part of an enclosure upgrade, you must remove that node from the system configuration before you
start the following procedure. To do so, you can use the management GUI or the CLI.
To use the management GUI, right-click the node canister and select
Remove.
To use the CLI, enter the following command, where object_id | object_name
identifies the node canister that receives the additional
memory:
rmnodecanister object_id | object_name
If you are replacing a faulty DIMM with a new one from FRU stock, you do not need to remove the
node canister from the system configuration.
Refer to Figure 1 to locate the appropriate DIMM slot.
Press the locking tabs on the ends of the DIMM to eject it.
Lift the DIMM up and out of the slot.
Replacing or adding the DIMM
Touch the static-protective package that contains the new DIMM to any unpainted metal surface
on the node canister. Remove the DIMM from the package.
Turn the DIMM so that the DIMM keys align correctly with the connector on the main board.
Insert the DIMM into the connector by aligning the edges of the DIMM with the slots at the ends
of the DIMM connector.
Firmly press the DIMM straight down into the connector by applying pressure on both ends of the
DIMM simultaneously. The retaining clips snap into the locked position when the DIMM is firmly
seated in the connector.
Repeat steps 9
through 12
until all the new or replacement DIMMs are installed.
If the canister power does not on, check that the canister is fully inserted into the
enclosure.
Use the management GUI to monitor the system as the node powers on and resolve any unfixed
events that appear in the event log.
If you are upgrading the memory of an enclosure, use the Management
GUI to ensure that the removed node is automatically added back into the system configuration and is
active. Then repeat the procedure to upgrade the second node canister in the enclosure.