Instruction Manual

Hardware options installation 36
Item Description Definition
E = UDIMM (unbuffered with ECC)
L = LRDIMM (load reduced)
For the latest supported memory information, see the QuickSpecs on the HP website
(http://h18000.www1.hp.com/products/quickspecs/ProductBulletin.html). At the website, choose the
geographic region, and then locate the product by name or product category.
Memory configurations
To optimize server blade availability, the server blade supports the following AMP modes:
Advanced ECCprovides up to 4-bit error correction and enhanced performance over Lockstep mode.
This mode is the default option for this server blade.
Online spare memoryprovides protection against failing or degraded DIMMs. Certain memory is
reserved as spare, and automatic failover to spare memory occurs when the system detects a DIMM that
is degrading. This allows DIMMs that have a higher probability of receiving an uncorrectable memory
error (which would result in system downtime) to be removed from operation.
Advanced Memory Protection options are configured in RBSU. If the requested AMP mode is not supported
by the installed DIMM configuration, the server blade boots in Advanced ECC mode. For more information,
see "HP ROM-Based Setup Utility (on page 56)."
The server blade also can operate in independent channel mode or combined channel mode (lockstep).
When running in lockstep mode, you gain reliability if running with RDIMMs (built with x4 DRAM devices).
The system can survive the complete failure of two DRAM devices (DDDC). Running in independent mode, the
server can only survive the complete failure of a single DRAM device (SDDC).
Maximum capacity
DIMM type DIMM rank Two processors Four processors
RDIMM
Single-rank 128 GB 256 GB
RDIMM
Dual-rank 256 GB 512 GB
LRDIMM
Quad-rank 512 GB 1024 GB
For the latest memory configuration information, see the QuickSpecs on the HP website
(http://www.hp.com).
Advanced ECC memory configuration
Advanced ECC memory is the default memory protection mode for this server blade. Standard ECC can
correct single-bit memory errors and detect multi-bit memory errors. When multi-bit errors are detected using
Standard ECC, the error is signaled to the server blade and causes the server blade to halt.
Advanced ECC protects the server blade against some multi-bit memory errors. Advanced ECC can correct
both single-bit memory errors and 4-bit memory errors if all failed bits are on the same DRAM device on the
DIMM.
Advanced ECC provides additional protection over Standard ECC because it is possible to correct certain
memory errors that would otherwise be uncorrected and result in a server blade failure. Using HP Advanced
Memory Error Detection technology, the server blade provides notification when a DIMM is degrading and
has a higher probability of uncorrectable memory error.