NQ5000P S L9TN Intel, NQ5000P S L9TN Datasheet - Page 297

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

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Functional Description

5.1

5.1.1

5.1.2

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

Functional Description

This chapter describes each of the MCH interfaces and functional units including the

Dual Independent Bus (DIB), processor Frontside Bus (FSB) interface, the PCI Express

ports, system memory controller, power management, and clocking.

Processor Front Side Buses

The MCH supports two Dual-Core Intel

nanometer process in a 771-land, FC-LGA4 package. Dual-Core Intel Xeon 5000

Sequence is a fourth generation 32-bit Intel

Extended Memory 64 Technology (Intel

microarchitecture.

The MCH supports 1066/1333 MHz FSB which is a quad-pumped bus running off a

266/333 MHz system clock, and a point to point DIB processor system bus interface.

Each processor FSB supports peak address generation rates of 533 Million Addresses/

second. Both FSB data buses are quad pumped 64-bits which allows peak bandwidths

of 8.5 GB/s (1066 MT/s) and 10.5 GB/s (1333 MT/s). The MCH supports 36-bit host

addressing, decoding up to 64 GB of the processor’s memory address space. Host-

initiated I/O cycles are decoded to AGP/PCI, PCI Express, ESI interface or MCH

configuration space. Host-initiated memory cycles are decoded to AGP/PCI, PCI

Express, ESI or system memory.

FSB Overview

The MCH is the only priority agent for two point to point, independent, processor front

side buses (FSB). These two buses are referred to as Dual Independent Buses (DIB).

The MCH maintains coherency across these two buses. The MCH may complete

deferrable transactions with either defer-replies or in-order responses. Data

transactions on the FSBs are optimized to support 64 byte cache lines.

Each processor FSB contains a 36 bit address bus, a 64 bit data bus, and associated

control signals. The FSB utilizes a split-transaction, deferred reply protocol. The FSB

uses source-synchronous transfer of address and data to improve performance. The

FSB address bus is double pumped (2X) with ADS being sourced every other clock. The

address bus generates a maximum bandwidth of 133 Million Addresses/second (MA/s).

The FSB data bus is quad pumped (4X) and supports peak bandwidths of 8.5 GB/s

(1066 MT/s) and 10.5 GB/s (1333 MT/s). Parity protection is applied to the data bus.

This yields a combined bandwidth of 17 GB/s (1066 MT/s) and 21 GB/s (1333 MT/s) for

both FSBs.

Interrupts are also delivered via the FSB.

FSB Dynamic Bus Inversion

The MCH supports Dynamic Bus Inversion (DBI) when driving and when receiving data

from the processor. DBI limits the number of data signals that are driven to a low

voltage on each quad pumped data phase. This decreases the worst-case power

consumption of the MCH. The DBI[3:0]# signals indicate if the corresponding 16 bits of

data are inverted on the bus for each quad pumped data phase.

Xeon

EM64T) based on Intel NetBurst

Xeon processor supporting Intel

5000 Sequence processors on a 65

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NQ5000P S L9TN Intel, NQ5000P S L9TN Datasheet - Page 297

NQ5000P S L9TN

Specifications of NQ5000P S L9TN

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