ProLiant DL580 Generation 3 Server Maintenance and Service Guide
Table Of Contents
- HP ProLiant DL580 Generation 3 Server Maintenance and Service Guide
- Notice
- Contents
- Illustrated parts catalog
- Removal and replacement procedures
- Required tools
- Safety considerations
- Preparation procedures
- Removing the front bezel
- Removing a media drive blank
- Removing a media drive
- Removing the processor module
- Removing a processor
- Removing a PPM
- Removing a PCI latch
- Removing a PCI retaining clip
- Removing the PCI-X Hot Plug basket
- Removing a non-hot-plug expansion board
- Removing the PCI-X Hot Plug mezzanine option
- Removing the PCI Express mezzanine option
- Recovering data from the BBWC
- Removing the BBWC battery pack
- Removing the BBWC cache module
- Removing the system board
- Removing the system battery
- Removing the media board
- Removing the SCSI backplane
- Removing the power backplane
- Removing the memory backplane
- Removing a hard drive blank
- Removing a hot-plug SCSI hard drive
- Removing a hot-plug SAS hard drive
- Removing the SAS-SATA hard drive cage
- Removing the SAS-SATA backplane
- Removing a PCI-X Hot Plug expansion board
- Removing a power supply blank
- Removing a redundant hot-plug power supply
- Replacing hot-plug fans
- Memory overview
- Diagnostic tools
- SmartStart software
- SmartStart Scripting Toolkit
- HP Instant Support Enterprise Edition
- Option ROM Configuration for Arrays
- HP ROM-Based Setup Utility
- ROMPaq utility
- System Online ROM flash component utility
- Integrated Management Log
- Integrated Lights-Out technology
- Automatic Server Recovery
- HP Systems Insight Manager
- HP Insight Diagnostics
- USB support
- Troubleshooting the system using port 85 codes
- Server component identification
- Front panel components
- Front panel LEDs and buttons
- Memory board components and LEDs
- Processor module LEDs
- Rear panel components
- Rear panel LEDs and buttons
- Power supply LEDs
- System board components
- DIMM slot locations
- SCSI IDs
- Hot-plug SCSI hard drive LEDs
- Hot-plug SCSI hard drive LED combinations
- SATA or SAS IDs
- SATA or SAS hard drive LEDs
- SAS and SATA hard drive LED combinations
- Fan locations
- Hot-plug fan LEDs
- BBWC LEDs
- Server cabling
- Specifications
- Acronyms and abbreviations
- Index
Removal and replacement procedures 52
ECC can correct single-bit memory errors, Advanced ECC can correct single-bit memory errors and multi-
bit memory errors if all failed bits are on the same DRAM device on the DIMM.
The following guidelines apply to Advanced ECC memory:
• All general memory requirements apply.
• Advanced ECC mode is supported with one to four memory boards.
• Board insertions do not convert the AMP mode while the server is running. A server cannot be
converted from Advanced ECC to another AMP mode by inserting a board while the server is
running. Board insertions in Advanced ECC are solely for making additional memory resources
available to the operating system.
• Advanced ECC is the only mode in which hot-add operations are supported, and is the only mode in
which the amount of memory available to the operating system can be increased without a reboot.
• If a memory board (which contains DIMMs) is unlocked while in Advanced ECC mode, audio alarms
and visual alerts occur.
The following rules apply to hot-add operations. Hot-add is performed by adding a memory board while
the server is running, and the additional memory is made available to the operating system without a
reboot.
• Boards must be inserted sequentially.
• Multiple hot-add board insertions can be performed one at a time on the same server. For example,
if a server has three empty memory board slots, three hot-add board insertions can be performed.
• If multiple hot-add operations are performed, allow one board insertion operation to complete (as
indicated by the memory board LEDs ("Memory board components and LEDs" on page 70) and
operating system logs) before inserting another memory board.
CAUTION: When the memory board locking switch is unlocked in a mode that does not support hot-add or
hot-replace capabilities, audio alarms and visual alerts occur. Removing the memory board at this point
causes server failure.
To end the audio alarms and visual alerts, move the memory board locking switch back to the locked position.
This action does not result in data corruption or server failure.
If removal of a single memory board is required and it is the only memory board, power down the server and
make the necessary memory changes.
Online spare memory
Online spare memory provides a higher level of memory protection than Advanced ECC ("Advanced
ECC memory" on page 51). With online spare memory, the probability of a server failing because of
uncorrectable memory errors is reduced.
In this mode, degraded memory that is receiving a high rate of correctable memory errors is automatically
disengaged and a replacement set of memory is used in its place. Because DIMMs that are receiving a
high rate of correctable memory errors have an increased probability of receiving an uncorrectable
memory error (which results in a server failure), the server experiences higher availability. The degraded
memory can be replaced during scheduled downtime and poses no additional risk to the server.
Online spare memory is supported with one to four memory boards installed. On this server, each
installed memory board is protected by its own spare memory. No operating system support is required.
The following guidelines apply to online spare memory:
• All general memory requirements apply.
• Online spare memory supports 1, 2, 3, or 4 memory boards.
• Each board must have a valid online spare configuration. No dependencies exist for the
configuration between different memory boards.