S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 91

S5920Q

Manufacturer Part Number

S5920Q

Description

Manufacturer

Applied Micro Circuits Corporation

Datasheet

1.S5920Q.pdf (165 pages)

Specifications of S5920Q

Operating Temperature (min)

Operating Temperature Classification

Commercial

Operating Temperature (max)

70C

Package Type

PQFP

Rad Hardened

Lead Free Status / Rohs Status

Not Compliant

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S5920 – PCI Product: Initialization

INTRODUCTION

All PCI bus agents and bridges are required to imple-

ment PCI Configuration Registers. When multiple PCI

devices are present, these registers must be unique to

each device in the system. The specified PCI proce-

dure for uniquely selecting a device’s configuration

space involves a dedicated signal, called IDSEL, con-

nected to each motherboard PCI bus device and PCI

slot.

After reset, the host executes configuration cycles to

each device on the PCI bus. The configuration regis-

ters provide information on PCI agent operation and

memory or I/O space requirements. These allow the

PCI BIOS to enable the device and locate it within sys-

tem memory or I/O space.

After a PCI reset, the S5920 can be configured for a

specific application by downloading device setup infor-

mation from an external non-volatile memory into the

device Configuration Registers. In order to use the

Pass-Thru regions, the S5920 must be used with an

external nvRAM boot device If no nvRAM is used, the

Base-Address Regions are disabled. However, the

mailboxes and other PCI/Add-on Operation Registers

can still be used (as Base-Address Region #0 comes

up in its default state, defining a 128-byte I/O region).

To configure the S5920, 64 bytes of setup information

are required. The rest of the boot device can be used

to implement an expansion BIOS, if desired. Some of

the setup information is used to initialize the S5920

PCI Configuration Registers, while other information is

used to define S5920 special operating modes.

PCI RESET

Immediately following the assertion of the PCI RST#

signal, the Add-On reset output SYSRST# is asserted.

The Add-On reset output (SYSRST#) can be used to

initialize external state machines, reset Add-On micro-

processors, or other Add-On logic devices.

All S5920 Operation Registers and Configuration Reg-

isters are initialized to their default states at reset. The

default values for the Configuration Registers will be

overwritten by the contents of the external nv boot

memory during device initialization. Configuration

accesses by the host CPU while the S5920 is loading

configuration will produce PCI bus retries until one of

the following events occurs:

AMCC Confidential and Proprietary

•

The S5920 identifies that there is no valid boot

memory (and default Configuration Register

values are used).

The S5920 finishes downloading all configura-

tion information from a valid boot memory.

LOADING THE SERIAL NV MEMORY

Serial nv memory data transfers are performed

through a two-wire, bi-directional data transfer protocol

as defined by commercial serial EEPROM offerings.

These devices have the advantages of low pin counts,

small package size, and economical price.

A serial nv memory is initially considered valid if the

first serial accesses contain the correct per-byte

acknowledgments (see Figure 5). If the serial per-byte

acknowledgment is not observed, the S5920 deter-

mines that no external serial nv memory is present

and the AMCC default Configuration Register values

specified in the PCI Configuration Register Chapter

are used. Please note that the Pass-Thru interface will

not operate unless a valid nv memory has been read.

The serial nvRAM is first accessed at location 0040h

followed by a read to location 0041h. If either of these

accesses contain anything other than FFh, the next

four accesses are to locations 0050h, 0051h, 0052h

and 0053h. At these locations, the data must be 80h

(or 81h or 82h), FFh, E8h, and 10h, respectively, for

the external nv memory to be considered valid. Once a

valid external nv memory has been recognized, it is

read, sequentially from location 040h to 07Fh. The

data is loaded into the appropriate PCI configuration

loaded into the Configuration Registers, but is used

instead to initialize some S5920 modes of operation

(location 0045h, for instance). Upon completion of this

sequence, the boot load terminates and PCI configu-

ration accesses to the S5920 are acknowledged with

the PCI Target Ready (TRDY#) output.

Table 1 lists the required nv memory contents for a

valid configuration nv memory device.

Two pins are used to transfer data between the S5920

PCI controller and the external serial memory: a serial

clock pin, SCL, and a serial data pin, SDA. The serial

clock pin is an open drain output from the S5920, and

the serial data pin is open drain bi-directional. The

serial clock is derived by dividing the PCI bus clock by

293. This means the frequency of the serial clock is

approximately 114 KHz for a 33 MHz PCI bus clock.

Note in Figure 1, a 4.7k pull-up is required on the SDA

and SCL lines. During boot-up, the S5920 will only

communicate with an EEPROM that has its address

pins set to 0 (A[2:0] = “000). When not accessing the

external nvRAM, the S5920 will tri-state the SCL and

SDA signals so other two-wire serial devices can use

the bus. The system designer must guarantee that the

two-wire serial bus is idle whenever the S5920 wants

to start an access. The S5920 does NOT perform two-

Revision 1.02 – April 12, 2007

Data Book

DS1596

S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 91

S5920Q

Specifications of S5920Q

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