S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 135

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: Pass-Thru Operation

On operation registers, just the APTD register (ADR =

2Ch).

Table 54. Byte Lane Steering for PCI Write (Add-On

Read)

Table 55. Byte Lane Steering for PCI Read (Add-On

Write)

For Pass-Thru writes (Add-On APTD reads), Add-On

logic must read the APTD register one byte or one

word at a time (depending on the Add-On bus width).

The internal data bus is steered from the correct por-

tion of APTD using the BE[3:0]# inputs. Table 1 shows

the byte lane steering mechanism used by the S5920.

The BYTEn symbols indicate data bytes in the Pass-

Thru Data Register.

When a read by the Add-On is performed with a BEn#

input asserted, the corresponding PTBEn# output is

deasserted. Add-On logic cycles through the byte

enables to read the entire APTD Register. Once all

data is read (all PTBE[3:0]#s are deasserted),

PTRDY# is asserted by the Add-On, completing the

access.

For Pass-Thru reads (Add-On APTD writes), the bytes

requested by the PCI initiator are indicated by the

P T B E [ 3 : 0 ] # o u t p u t s . A d d - O n l o g i c u s e s t h e

PTBE[3:0]# signals to determine which bytes must be

written (and which bytes have already been written).

For example, a PCI initiator performs a byte Pass-Thru

read from an 8-bit Pass-Thru region with PCI BE2#

asserted. On the Add-On interface, PTBE2# is

asserted, indicating that the PCI initiator requires data

on this byte lane. Once the Add-On writes APTD, byte

AMCC Confidential and Proprietary

32 Bit Data Bus

16 Bit Data Bus

Defined PT

Bus Width

8 Bit Data Bus

Enables

Byte

DQ[31:24]

BYTE3

DQ[31:24]

DQ[15:8]

DQ[7:0]

BYTE3

APTD Register Write Byte Lane

DQ[23:16]

BYTE2

BYTE3

BYTE2

DQ[23:16]

DQ[7:0]

Steering

DQ[15:8]

BYTE1

BYTE2

BYTE3

BYTE1

DQ[15:8]

DQ[7:0]

BYTE0

DQ[7:0]

BYTE0

BYTE1

BYTE2

BYTE3

2, PTBE2# is deasserted, and the Add-On may assert

PTRDY#, completing the cycle.

Table 2 shows how the external Add-On data bus is

steered to the Pass-Thru Data Register bytes. This

mechanism is determined by the Pass-Thru region

bus width defined during initialization. The BYTEn

symbols indicate data bytes in the Pass-Thru Data

BE1# asserted results in the data on DQ[7:0] being

steered into BYTE1 of the APTD register.

To write data into the APTD Register, PTBEn# and

BEn# must both be asserted. The following describes

how APTD writes are controlled:

Write BYTE3 if PTBE3# AND BE3# are asserted

Write BYTE2 if PTBE2# AND BE2# are asserted

Write BYTE1 if PTBE1# AND BE1# are asserted

Write BYTE0 if PTBE0# AND BE0# are asserted

After each byte is written into the Pass-Thru data reg-

i s t e r, i ts c o r r e s p o n d i n g PT B E [ 3 : 0 ] # o u t p u t i s

deasserted. This allows Add-On logic to monitor which

bytes have been written, and which bytes remain to be

written. When all requested bytes have been written

(all PTBE[3:0]#s are deasserted), PTRDY# is asserted

by the Add-On, completing the access.

There are two methods of accessing the Add-On

Pass-Thru Address Register (APTA): by asserting the

PTADR# pin (and getting the address on DQ after

some propagation delay) or by asserting RD#,

SELECT, BE[3:0]#’s, and ADR[6:2] = 28h (and getting

the address on DQ one cycle later). When using the

PTADR# input, all 32 bits of address are driven on DQ,

regardless of the state of the DQMODE pin. When

accessing APTA via an Add-On operation register

access, all 32 bits of address are driven on DQ as long

as DQMODE indicates 32 bits. If DQMODE is set for

16 bits, it is necessary to perform two accesses: one

with BE[3]# low for the lower 16 bits, and one with

BE[3]# high for the upper 16 bits. The Pass-Thru

region bus-sizes have no effect on APTA accesses.

Figure 11 shows a Pass-Thru write operation for a

region defined for an 8-bit Add-On bus interface. As

the 8-bit device is connected only to DQ[7:0], the

device must access the APTD one byte at a time.

A PCI initiator has performed a posted burst-write of

two DWORDs to Pass-Thru region zero. Data0 =

08D49A30h and Data1 = AABBCCDDh. All byte-

enables of the DWORDs were active.

Clock 0: The address is recognized as a PCI write to

Pass-Thru region 0. The PCI bus write address is

stored in the Pass-Thru Address Register. The PCI

bus write data is stored in the S5920 write FIFO. Add-

Revision 1.02 – April 12, 2007

Data Book

DS1596

135

S5920Q Applied Micro Circuits Corporation, S5920Q Datasheet - Page 135

S5920Q

Specifications of S5920Q

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