NH82801GR S L8FY Intel, NH82801GR S L8FY Datasheet - Page 33

NH82801GR S L8FY

Manufacturer Part Number

NH82801GR S L8FY

Description

Manufacturer

Intel

Datasheet

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Specifications of NH82801GR S L8FY

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MCH Register Description

Intel® 3000 and 3010 Chipset Memory Controller Hub (MCH) Datasheet

MCH Register Description

The MCH contains two sets of software accessible registers, accessed via the Host CPU

I/O address space: Control registers and internal configuration registers.

The MCH internal registers (I/O Mapped, Configuration and PCI Express Extended

Configuration registers) are accessible by the processor. The registers that reside within

the lower 256 bytes of each device can be accessed as Byte, Word (16-bit), or DWord

(32-bit) quantities, with the exception of CONFIG_ADDRESS, which can only be

accessed as a DWord. All multi-byte numeric fields use “little-endian” ordering (i.e.,

lower addresses contain the least significant parts of the field). Registers which reside

in bytes 256 through 4095 of each device may only be accessed using memory-

mapped transactions in DWord (32-bit) quantities.

Some of the MCH registers described in this section contain reserved bits. These bits

are labeled “Reserved”. Software must deal correctly with fields that are reserved. On

reads, software must use appropriate masks to extract the defined bits and not rely on

reserved bits being any particular value. On writes, software must ensure that the

values of reserved bit positions are preserved. That is, the values of reserved bit

positions must first be read, merged with the new values for other bit positions and

then written back. Note the software does not need to perform read, merge, and write

operation for the configuration address register.

In addition to reserved bits within a register, the MCH contains address locations in the

configuration space of the Host Bridge entity that are marked either “Reserved” or

“Intel Reserved”. The MCH responds to accesses to “Reserved” address locations by

completing the host cycle. When a “Reserved” register location is read, a zero value is

returned. (“Reserved” registers can be 8-, 16-, or 32-bits in size). Writes to “Reserved”

registers have no effect on the MCH. Registers that are marked as “Intel Reserved”

must not be modified by system software. Writes to “Intel Reserved” registers may

cause system failure. Reads from “Intel Reserved” registers may return a non-zero

value.

Upon a Full Reset, the MCH sets its entire set of internal configuration registers to

predetermined default states. Some register values at reset are determined by external

strapping options. The default state represents the minimum functionality feature set

required to successfully bringing up the system. Hence, it does not represent the

optimal system configuration. It is the responsibility of the system initialization

software (usually BIOS) to properly determine the DRAM configurations, operating

parameters and optional system features that are applicable, and to program the MCH

registers accordingly.

• Control registers are I/O mapped into the CPU I/O space, which control access to

• Internal configuration registers residing within the MCH are partitioned into two

PCI and PCI Express configuration space (see

logical device register sets (“logical” since they reside within a single physical

device). The first register set is dedicated to Host Bridge functionality (i.e. DRAM

configuration, other chipset operating parameters and optional features). The

second register block is dedicated to Host-to-PCI Express Bridge functions (controls

PCI Express interface configurations and operating parameters).

Section

3.5).

NH82801GR S L8FY Intel, NH82801GR S L8FY Datasheet - Page 33

NH82801GR S L8FY

Specifications of NH82801GR S L8FY

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