S5935QF Applied Micro Circuits Corporation, S5935QF Datasheet - Page 17

S5935QF

Manufacturer Part Number

S5935QF

Description

Manufacturer

Applied Micro Circuits Corporation

Datasheet

1.S5935QF.pdf (204 pages)

Specifications of S5935QF

Package Type

PQFP

Rad Hardened

Lead Free Status / Rohs Status

Not Compliant

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Part Number:

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S5935 – PCI Product

The optional nvRAM allows the Add-On card manufac-

turer to initialize the S5935 with his specific Vendor ID

and Device ID numbers along with desired S5935

operation characteristics. The non-volatile memory

feature also provides for the Expansion BIOS and

POST code (power-on-self-test) options on the PCI

bus.

Table 3. Add-On Bus Operation Registers

AMCC Confidential and Proprietary

Add-On Bus Operation Registers

Mailbox Empty/Full Status Register (AMBEF)

Bus Master Write Address Register (MWAR)

Bus Master Read Address Register (MRAR)

Bus Master Write Transfer Count (MWTC)

Bus Master Read Transfer Count (MRTC)

General Control/Status Register (ARCR)

Interrupt Control/Status Register (AINT)

Outgoing Mailbox Register 1 (AOMB1)

Outgoing Mailbox Register 2 (AOMB2)

Outgoing Mailbox Register 3 (AOMB3)

Outgoing Mailbox Register 4 (AOMB4)

Incoming Mailbox Register 1 (AIMB1)

Incoming Mailbox Register 2 (AIMB2)

Incoming Mailbox Register 3 (AIMB3)

Incoming Mailbox Register 4 (AIMB4)

Pass-Thru Address Register (APTA)

Pass-Thru Data Register (APTD)

FIFO Port (AFIFO)

Address

0Ch

1Ch

2Ch

3Ch

5Ch

00h

04h

08h

10h

14h

18h

20h

24h

28h

30h

34h

38h

58h

Mailbox Operation

The Mailbox Registers are divided into two four

DWORD sets. Each set is dedicated to one bus for

transferring data to the other bus. Figure 3 below

shows a block diagram of the mailbox section of the

S5935. The provision of Mailbox Registers provides

an easy path for the transfer of user information (com-

mand, status or parametric data) between the two

buses. An empty/full indication for each Mailbox Reg-

ister, at the byte level, is determined by polling a

Status Register accessible to both the PCI and Add-

On buses. Providing Mailbox byte level empty/full indi-

cations allows for greater flexibility in 8-, 16- or 32-bit

system interfaces. i.e., transferring a single byte to an

8-bit Add-On bus without requiring the assembling or

disassembling of 32-bit data.

The generation of interrupts from Mailbox Registers is

equivalent with the commonly known ‘DOORBELL’

interrupt technique. Bit locations configured within the

S5935’s Operation Registers select a Mailbox and

Mailbox byte which is to generate an interrupt when

full or touched. A mailbox interrupt control register is

then used to enable interrupt generation and to select

if the interrupt is to be generated on the PCI or Add-On

Local bus. PCI Local bus interrupts may also be gen-

erated from direct hardware interfacing due to a

unique AMCC feature. A dedicated Mailbox byte is

directly accessible via a set of hardware device signal

pins. A mailbox load signal pin latches Add-On bus

data directly into the Mailbox initiating a PCI bus inter-

rupt if enabled. Mailbox data may also be read in a

similar manner. This option is shared with the byte

wide non-volatile memory signal pins. The S5935

must use the serial nvRAM for the direct mailbox

option signal pins to be available or they are assigned

to the byte wide at power up.

Revision 1.02 – June 27, 2006

Data Book

DS1527

S5935QF Applied Micro Circuits Corporation, S5935QF Datasheet - Page 17

S5935QF

Specifications of S5935QF

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