Memory subsystem architecture, Single-rank, dual-rank, and quad-rank dimms – HP ProLiant ML350e Gen8 v2-Server User Manual

Hardware options installation 47

level with no performance penalty. In addition, the industry supports UDIMM at 2 DIMMs per channel at

1066 MT/s. HP SmartMemory supports 2 DIMMs per channel at 1333 MT/s at 1.35V, or 25% greater
bandwidth, and supports 2 DIMMs per channel at 1600 MT/s at 1.5V, or 50% greater bandwidth.

Memory subsystem architecture

The memory subsystem in this server is divided into channels. Each processor supports three channels, and
each channel supports two DIMM slots.

-

Memory
subsystem

channel

(Processor 2)

Population
order

Slot number
(Processor

2)

-

Memory
subsystem

channel

(Processor

1)

Population
order

Slot number
(Processor

1)

Processor 2

1

A

D

1

2

Processor 1

3

F

C

1

2

Processor 2

2

B
E

3
4

Processor 1

2

E
B

3
4

Processor 2

3

C
F

5
6

Processor 1

1

D
A

5
6

For the location of the slot numbers, see "DIMM slots ("

DIMM slot locations

" on page

14

)."

This multi-channel architecture provides enhanced performance in Advanced ECC mode. This architecture

also enables Lockstep and Online Spare Memory modes.
DIMM slots in this server are identified by number and by letter. Letters identify the population order. Slot
numbers indicate the DIMM slot ID for spare replacement.

Single-rank, dual-rank, and quad-rank DIMMs

To understand and configure memory protection modes properly, an understanding of single-, dual-, and
quad-rank DIMMs is helpful. Some DIMM configuration requirements are based on these classifications.
A single-rank DIMM has one set of memory chips that is accessed while writing to or reading from the

memory. A dual-rank DIMM is similar to having two single-rank DIMMs on the same module, with only one

rank accessible at a time. A quad-rank DIMM is, effectively, two dual-rank DIMMs on the same module. Only
one rank is accessible at a time. The server memory control subsystem selects the proper rank within the

DIMM when writing to or reading from the DIMM.
Dual- and quad-rank DIMMs provide the greatest capacity with the existing memory technology. For

example, if current DRAM technology supports 8-GB single-rank DIMMs, a dual-rank DIMM would be 16
GB, and a quad-rank DIMM would be 32 GB.
LRDIMMs are labeled as quad-rank DIMMs; however, they function more like dual-rank DIMMs. There are

four ranks of DRAM on the DIMM, but the LRDIMM buffer creates an abstraction that allows the DIMM to

appear as a dual-rank DIMM to the system. The LRDIMM buffer also isolates the electrical loading of the

DRAM from the system to allow for faster operation. These two changes allow the system to support up to
three LRDIMMs per memory channel, providing for up to 50% greater memory capacity and higher memory

operating speed compared to quad-rank RDIMMs.