s5935qrc Applied Micro Circuits Corporation (AMCC), s5935qrc Datasheet - Page 121

s5935qrc

Manufacturer Part Number

s5935qrc

Description

Pci Product

Manufacturer

Applied Micro Circuits Corporation (AMCC)

Datasheet

1.S5935QRC.pdf (204 pages)

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S5935 – PCI Product

SELECT#, BE[3:0]#, and ADR[6:2]. RD# and WR#

must be deasserted when PTADR# is asserted, but

SELECT# may be asserted. These inputs automati-

cally drive the address (internally) to 28h and assert all

byte enables. The ADR[6:2] and BE[3:0]# are ignored

when using the PTADR# direct access input. When

PTADR# is asserted, the contents of the APTA register

are immediately driven onto the Add-On data bus.

The PTADR# direct access signal accesses the Pass-

Thru address register as 16-bits or 32-bits, whatever

the MODE pin is configured for. For 16-bit mode,

PTADR# only presents the lower 16-bits of the APTA

PTRDY# indicates that the Add-On has completed the

current Pass-Thru access. Multiple Add-On reads or

writes may occur to the Pass-Thru data (APTD) regis-

ter before asserting PTRDY#. This may be required for

8-bit or 16-bit Add-On interfaces using multiple

accesses to the 32-bit Pass-Thru data register. In

some cases, the Add-On bus may be 32-bits, but logic

may require multiple BPCLK periods to read or write

data. In this situation, accesses may be extended by

holding off PTRDY#. PTRDY# must be synchronized

to BPCLK.

NON-VOLATILE MEMORY INTERFACE

The S5935 allows read and write access to the nv

memory device used for configuration. Reads are nec-

essary during device initialization as configuration

information is downloaded into the S5935. If an expan-

sion BIOS is implemented in the nv memory, the host

transfers (shadows) the code into system DRAM.

Writes are useful for in-field updates to expansion

BIOS code. This allows software to update the nv

memory contents without altering hardware.

Non-Volatile Memory Interface Signals

For serial nv memory devices, there are only two sig-

nals used to interface with nv memory. SCL is the

serial clock, and SDA is the serial data line. The func-

tionality of these signals is described in-detail in the

PIN description Section of this book. The designer

does not need to generate the timings for SCL and

SDA. The S5935 automatically performs the correct

serial access when programmed for serial devices.

For byte-wide nv memory devices, there is an 8-bit

data bus (EQ7:0), and a 16-bit address bus (EA15:0)

dedicated for the nv memory interface. When a serial

nv memory is implemented, many of these pins have

alternate functions. The S5935 also has read (ERD#)

and write (EWR#) outputs to drive the OE# and WR#

inputs on a byte-wide nv memory. The designer does

not need to generate the timings for these outputs.

AMCC Confidential and Proprietary

The S5935 automatically performs the read and write

accesses when programmed for byte wide devices.

Accessing Non-Volatile Memory

The nv memory, if implemented, can be accessed

through the PCI interface or the Add-On interface.

Accesses from both the PCI side and the Add-On side

must be synchronous with the PCI clock (BPCLK for

the Add-On). Accesses to the nv memory from the PCI

interface are through the Bus Master Control/Status

Accesses to the nv memory from the Add-On interface

are through the Add-On General Control/Status Regis-

ter (AGCSTS) Add-On Operation Register. Accesses

to the MCSR register are from the PCI bus and are,

therefore, automatically synchronous to the PCI clock.

Accesses to the AGCSTS register from the Add-On

side must be synchronous with respect to BPCLK.

Some nv memories may contain Expansion ROM

BIOS code for use by the host software. During initial-

ization, the Expansion BIOS is located within system

memory. The starting location of the nv memory is

stored in the Expansion ROM Base Address Register

in the S5935 PCI Configuration Registers. A PCI read

from this region results in the S5935 performing four

consecutive byte access to the nv memory device.

Writes to the nv memory are not allowed by writing to

this region. Writes to the nv memory must be per-

formed as described below.

The S5935 contains two latches within the MCSR reg-

ister to control and access the NVRAM. One is an 8 bit

latch called the NVRAM Address/Data Register which

is used to hold NVRAM address and data information.

The other is a 3 bit latch called the NVRAM Access

Control Register which is used to direct the address

and data information and to control the NVRAM itself.

Reading or writing to the NVRAM is performed through

bits D31:29 of this register. These bits are enable and

decode controls rather than a command or instruction

to be executed. D31 of this register is the primary

enable bit which allows all accesses to occur. When

written to a ‘1’, D31 enables the decode bits D30 and

D29 to direct the data contained in the address/data

latch, D23:16, to the low address, high address or data

latches. D31 should be thought of as “opening a door”

where as long as D31 = 1, then the door is open for

address or data information to be altered. The table on

page 5-16 of the S5935 data book shows the D31:29

bit combinations for reading, writing, and loading ad-

dress/data information. Additionally, D31 doubles as

an S5935 status bit. A ‘1’ indicates that the S5935 is

currently busy reading or writing to the NVRAM. A ‘0’

indicates a complete or inactive state.

Revision 1.02 – June 27, 2006

Data Book

DS1527

121

s5935qrc Applied Micro Circuits Corporation (AMCC), s5935qrc Datasheet - Page 121

s5935qrc

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