cs5535 National Semiconductor Corporation, cs5535 Datasheet - Page 60

cs5535

Manufacturer Part Number

cs5535

Description

Geode Cs5535 Companion Multi-function South Bridge

Manufacturer

National Semiconductor Corporation

Datasheet

1.CS5535.pdf (555 pages)

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Global Concepts and Features

3.7

3.7.1

There are several places in the CS5535 where addresses

are decoded and routed:

• Physical PCI Bus: The GLPCI_SB decodes PCI bus

• GLIU: The GLIU compares the request addresses

• Typical GeodeLink Device: For most GeodeLink

• Diverse Device: The Diverse Device has the same

3.7.2

From reset, the GLPCI_SB does not actively decode any-

thing. However, it will subtractively decode everything.

From reset, everything not positively claimed on the PCI

bus is converted to a GLIU request and passed to the

GLIU.

Using appropriate setup registers, the GLPCI_SB can be

programmed to actively decode selected I/O and memory

regions. Other than actively claiming, the “convert” and

“pass” operation is the same.

There are also control bits in the GLPCI_MSR_CTL (MSR

51700010h) register to regulate behavior associated with

legacy addresses:

• Bits [12:11]: Legacy I/O Space Active Decode. These

• Bit 13: Reject Primary IDE. If this bit is set, the

transactions and claims them with a “DEVSEL#” as

appropriate. After claiming a transaction, the GLPCI_SB

converts it to a GLIU request packet. It then passes the

request to the GLIU. It has no routing control or respon-

sibility beyond this point.

against the descriptor settings. It passes the request to

the port associated with the compare hit. Each port is

connected to a specific GeodeLink Device (see Section

3.1.5 "Topology" on page 52 for port assignment). There

are also specific legacy addresses that receive “special”

routing beyond the standard descriptor routing mecha-

nisms.

Devices, further decoding is minimal. If a device

contains only MSRs and a single native block (register

group) in I/O or memory space, specific bits within the

request packet can be used to easily select between the

two. If a device contains more than one register group, a

Local Base Address Register (LBAR) for each group is

used. Like a PCI Base Address Register (BAR), an

LBAR compare and hit operation is used to select the

desired group.

decoding responsibilities as a typical GeodeLink Device.

Beyond this programmable LBAR decoding, it has

substantial fixed decoding associated with legacy

addresses.

bits control the degree to which the GLPCI_SB will

actively claim I/O region 0000h through 03FFh:

— 00: Subtractive – Claim on fourth clock. (Default.)

— 01: Slow – Claim on third clock.

— 10: Medium – Claim on second clock.

GLPCI_SB will not actively decode the primary IDE

addresses of: 01F0h/01F7h and 03F6h.

MEMORY AND I/O MAP OVERVIEW

Introduction

PCI Bus Decoding

(Continued)

• Bit 14: Reject Secondary IDE. If this bit is set, the

• Bit 15: Reject DMA High Page Active. If this bit is set, the

For further details on the GLPCI_MSR_CTL register see

Section 5.2.2.1 "Global Control (GLPCI_CTRL)" on page

219.

Lastly, there in an “MSR Access Mailbox” located in PCI

Configuration register space. It consists of the following 32-

bit registers:

• MSR Address (PCI Index F4h). Full MSR routing path in

• MSR Data Low (PCI Index F8h). Bits [31:0]: When read,

• MSR Data High (PCI Index FCh). Bits [63:32]: Reads

For further details on the MSR Access Mailbox see Section

5.2.3 "PCI Configuration Registers" on page 225.

3.7.3

From reset, the GLIU passes all request packets to the

Diverse Device, except for the legacy primary IDE

addresses (01F0h/01F7h and 03F6h), these are passed to

the IDE device in the ATAC. There is a GLIU IOD_SC

descriptor to control this primary IDE behavior and it

defaults configured (see Section 5.1.4.2 "IOD Swiss

Cheese Descriptors (GLIU_IOD_SC[x])" on page 211). If

this descriptor is disabled, all requests pass to the Diverse

Device.

Using appropriate MSR setup registers (descriptors), the

GLIU can be programmed to route selected I/O and mem-

ory regions to specific GeodeLink Devices. Any memory or

I/O address that does not hit one of these regions, subtrac-

tively routes to the Diverse Device. Unlike PCI, there is no

performance loss associated with being the subtractive

port.

Operationally, there are five bus masters within the

CS5535: ATAC, ACC, DD, USBC1, and USBC2. These

masters only generate requests to access main memory off

the GX2. Therefore, all their GLIU requests need to be

routed to the GLPCI_SB for presentation to the PCI bus. A

set of GLIU P2D_BM descriptors could be used for this

purpose. However, the CS5535 GLIU is uniquely modified

to route all requests for the listed masters to the GLPCI_SB

unconditionally. Therefore, GLIU P2D_BM settings do not

GLPCI_SB will not actively decode the secondary IDE

addresses of: 0170h/0177h and 0376h.

GLPCI_SB will actively decode the following I/O range

associated with the DMA High Page registers:

0480h/048Fh.

the upper portion plus 14 device address bits in the

lower portion.

an MSR cycle is generated. The 64-bit read returns the

low 32 bits and saves the upper 32 bits for a read to

“Data High”. A write holds the value written as the

current “Data Low”.

return upper 32 bits of the last MSR value read. Writes

generate an MSR write cycle using the current value

and the “Data Low” value.

GLIU Decoding

Revision 0.8

cs5535 National Semiconductor Corporation, cs5535 Datasheet - Page 60

cs5535

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