NQ5000P S L9TN Intel, NQ5000P S L9TN Datasheet - Page 305

NQ5000P S L9TN

Manufacturer Part Number

NQ5000P S L9TN

Description

Manufacturer

Intel

Datasheet

1.NQ5000P_S_L9TN.pdf (530 pages)

Specifications of NQ5000P S L9TN

Mounting

Surface Mount

Lead Free Status / RoHS Status

Not Compliant

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Functional Description

5.2.3

5.2.3.1

5.2.3.1.1

5.2.3.2

Intel® 5000P/5000V/5000Z Chipset Memory Controller Hub (MCH) Datasheet

FB-DIMM Memory Operating Modes

The MCH supports two major modes of operation, mirrored and non-mirrored.

Non-Mirrored Mode Operation

When operating in non-mirrored mode the MCH operates the two branches

independently. In non-mirrored mode the full MCH address space of 64GB is available.

Normally when operating in non-mirrored mode both channels on a branch are

operated in lock step, referred to as dual-channel mode. There is a single DIMM, single

channel mode of operation referred to as single-channel mode.

Non-Mirrored Mode ECC

ECC is supported differently for each of these single- and dual-channel modes:

Dual-Channel Mode:

When branches operate in dual-channel mode, the MCH supports the 18 device DRAM

failure correction code option for FB-DIMM. As applied by Intel 5000P Chipset, this code

has the following properties:

Single-Channel Mode:

When the branch operates in single-channel/single-DIMM mode, the Intel 5000P

Chipset MCH employs x8 SDDC as in the dual channel case. However, in this case, the

ECC RAS feature set is limited for the single DIMM memory subsystem. In the single

DIMM mode (for example, nine x8 devices), the SDDC cannot correct single wire fault

(stuck-at) errors or permanent full device errors. This is because the error correction

capability in the SDDC is limited to adjacent symbol errors on a 16-bit boundary and in

the single DIMM mode with a Burst Length of 8, there are 4 transfers of 8B to form a

32B codeword. Hence a single wire failure in the same device is replicated across all 4

symbols hampering the error correction. The SDDC can detect most x4/x8 DRAM

failures but it can only correct adjacent symbol errors that occur within a 16-bit

boundary of each codeword

Mirrored Mode Operation

Memory Mirroring MCH is a user-selectable feature. Mirrored mode provides for

complete recovery from a DIMM device failure. The mirroring feature is fundamentally

a way for hardware to maintain two copies of all data in the memory subsystem, such

that a hardware failure or uncorrectable error is no longer fatal to the system. When an

uncorrectable error is encountered during normal operation, hardware simply retrieves

the “mirror” copy of the corrupted data, and no system failure will occur unless both

primary and mirror copies of the same data are corrupt simultaneously (statistically

very unlikely).

• Correction of any x4 or x8 DRAM device failure

• Detection of 99.986% of all single bit failures that occur in addition to a x8 DRAM

• Detection of all two wire faults on the DIMMs. This includes any pair of single bit

• Detection of all permutations of two x4 DRAM failures.

failure. The MCH will detect a series of failures on a specific DRAM and use this

information in addition to the information provided by the code to achieve 100%

detection of these cases.

errors.

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NQ5000P S L9TN Intel, NQ5000P S L9TN Datasheet - Page 305

NQ5000P S L9TN

Specifications of NQ5000P S L9TN

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