Agilent Technologies Webcam FS2100 User Manual

FuturePlus Systems Corporation

LOCAL BUS

Active Analysis Probe Users Manual-

FS2100 / FS2101

For Agilent Technologies Logic Analyzers

Revision 1.8

FuturePlus is a trademark of FuturePlus Systems Corporation

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The Format Menu

The STAT variable

The ADDR, ADDR_B , ADDR_C, DATA_B and DATA variables

The interface to the Logic Analyzer

The Clocking and Cycle bit Generation Logic

The Data Parity Checking Logic

STATE ANALYSIS

Installation Quick Reference

Using the front panel switches in state mode

Setting up the Analyzer to use the PC Mapper Inverse Assembler

Acquiring Data

The State Display with the PCI PC Mapper

Error Messages

PCI PC Mapping for memory transactions

Interrupt Vector Table

PCI PC Mapping - I/O Transactions

TIMING ANALYSIS

Installation Quick Reference

Timing Mode Skew

Using the Cycle bits and L_CMD lines

Demultiplexed versus Multiplexed

Acquiring Data

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The Waveform Display

GENERAL INFORMATION

Characteristics

Analysis Probe Interface Compatibility

Logic Analyzer Required

Number of Probes Used

Minimum Clock Period (State)

Signal loading

Operations

Environmental Temperature

Altitude

Humidity

Testing and Troubleshooting

Servicing

Signal Connections

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How to reach us

For Technical Support:

FuturePlus Systems Corporation

36 Olde English Road

Bedford NH 03110

TEL: 603-471-2734

FAX: 603-471-2738

On the web http://www.futureplus.com

For Sales and Marketing Support:

FuturePlus Systems Corporation

TEL: 719-278-3540

FAX: 719-278-9586

On the web http://www.futureplus.com

FuturePlus Systems has technical sales

representatives in several major countries. For an up

to date listing please see

http://www.futureplus.com/contact.html.

Agilent Technologies is also an authorized reseller of

many FuturePlus products. Contact any Agilent

Technologies sales office for details.

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Product Warranty

This FuturePlus Systems product has a warranty against defects

in material and workmanship for a period of 1 year from the date

of shipment. During the warranty period, FuturePlus Systems

will, at its option, either replace or repair products proven to be

defective. For warranty service or repair, this product must be

returned to the factory.

For products returned to FuturePlus Systems for warranty

service, the Buyer shall prepay shipping charges to FuturePlus

Systems and FuturePlus Systems shall pay shipping charges to

return the product to the Buyer. However, the Buyer shall pay all

shipping charges, duties, and taxes for products returned to

FuturePlus Systems from another country.

FuturePlus Systems warrants that its software and hardware

designated by FuturePlus Systems for use with an instrument

will execute its programming instructions when properly installed

on that instrument. FuturePlus Systems does not warrant that

the operation of the hardware or software will be uninterrupted or

error-free.

The foregoing warranty shall not apply to defects resulting from

improper or inadequate maintenance by the Buyer, Buyer-

supplied software or interfacing, unauthorized modification or

misuse, operation outside of the environmental specifications for

the product, or improper site preparation or maintenance. NO

OTHER WARRANTY IS EXPRESSED OR IMPLIED.

FUTUREPLUS SYSTEMS SPECIFICALLY DISCLAIMS THE

IMPLIED WARRANTIES OF MERCHANTABILITY AND

FITNESS FOR A PARTICULAR PURPOSE.

Limitation of

warranty

THE REMEDIES PROVIDED HEREIN ARE BUYER’S SOLE

AND EXCLUSIVE REMEDIES. FUTUREPLUS SYSTEMS

SHALL NOT BE LIABLE FOR ANY DIRECT, INDIRECT,

SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES,

WHETHER BASED ON CONTRACT, TORT, OR ANY OTHER

LEGAL THEORY.

Exclusive Remedies

Product maintenance agreements and other customer

assistance agreements are available for FuturePlus Systems

products. For assistance, contact the factory.

Assistance

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Introduction

The PCI Active Analysis Probe module provides a complete

interface between any PCI add-in slot and Agilent Logic

Analyzers. The Analysis Probe interface buffers and in state

mode latches and decodes all PCI cycle types and transactions.

The PCI Active Analysis Probe is a passive bus monitor which

does not assert any signals on the PCI bus. The PCI bus

signals are buffered and then terminated with 90k ohm/10pf

terminators so that they are impedance matched to the logic

analyzer. Since the PCI Active Analysis Probe does contains

high speed low skew buffers very little skew is introduced.

The configuration software on the diskette sets up the format

specification menu of the logic analyzer for compatibility with

your PCI bus. When the state configuration file is loaded, an

inverse assembler is also loaded which decodes PCI

transactions into easy to read mnemonics.

This manual is organized to help you quickly find the information

you need.

How to Use This

Manual

•

Analyzing the PCI Local Bus chapter introduces you to the

PCI Active Analysis Probe and lists the minimum equipment

required and accessories supplied for PCI bus analysis.

The State Analysis chapter explains how to configure the

PCI Active Analysis Probe to perform state analysis on your

PCI bus.

The Timing Analysis chapter explains how to configure the

PCI Active Analysis Probe to perform timing analysis on your

PCI bus.

The General Information chapter provides some general

information including the operating characteristics for the

PCI Active Analysis Probe module and the cable header

pinout.

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Analyzing the PCI Local Bus

This chapter introduces you to the PCI Active Analysis Probe

and lists the minimum equipment required and accessories

supplied for PCI Local Bus analysis. This chapter also contains

information that is common to both state and timing analysis.

Before you use the PCI Analysis Probe software, make a

duplicate copy of the master diskette. Then store the master

Duplicating the

diskette and use the back-up copy to configure your logic

Master Diskette

analyzer. This will help prevent the possibility of losing or

destroying the original files in the event the diskette wears out, is

damaged, or a file is accidentally deleted.

To make a duplicate copy, use the Duplicate Diskette operation

in the disk menu of your logic analyzer. For more information,

refer to the reference manual for your logic analyzer.

The PCI Active Analysis Probe product consists of the following

accessories:

Accessories

Supplied

•

The Analysis Probe interface hardware, which includes the

interface circuit module.

•

one jumper which is installed on the circuit module.

The inverse assembly and configuration software on a 3.5

inch diskette.

•

11 cables

This operating manual

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The PCI Active Analysis Probe module

The minimum equipment required for analysis of a PCI Local

Bus consists of the following equipment:

Minimum Equipment

Required

•

1660A/C, 1661A/C, 1662A/C, 16550A, 16554A, 16555A,

16556A, 1670A, 1671A, 1672A

•

The PCI Active Analysis Probe Product

A PCI target bus

This operating manual uses the same signal notation as the PCI

LOCAL BUS SPECIFICATION - REVISION 2.1. That is, a #

symbol at the end of a signal name indicates that the signals

active state occurs when it is at a low voltage. The absence of a

# symbol indicates that the signal is active at a high voltage.

Signal Naming

Conventions

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Pod 1 channel 0 can be configured to view any one of the four

PCI interrupts. Move the jumper so that it corresponds to the

desired interrupt and that interrupt line will be routed to POD 1

channel 0. The jumper and interrupt stake pins are clearly

labeled and are located under POD 7.

Viewing the

interrupts

Interrupt Jumper

Pod 0 Channel 1 INT

Switch

Setting

LED

Configuring the front

panel switches and

LEDs

Parity On

Parity Checking

enabled

Parity On

No Wait

No Idle

Parity checking

disabled

OFF

No Wait cycles

acquired

All Wait cycles

acquired

OFF

No Idle cycles

acquired

No Idle

All Idle cycles

acquired

YES

TDO/TDI

TDO connected to

TDI

No LED, switch in

rightmost position

TDO not connected No LED, switch in

to TDI

leftmost position

State/Timing

State

Timing

OFF

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Parity On

No Wait

No Idle

State

Parity On

No Wait

No Idle

TD0-TD1

State

Timing

FuturePlus

Systems

PCI Active Analysis Probe front panel

The active circuitry on the PCI Active Analysis Probe module

gets its power from the logic analyzer PODs. No power is taken

from the target PCI system. Please Note: If the Analysis

Probe is plugged into the PCI bus and the logic analyzer is

not connected or powered up the input buffers on the

Analysis Probe will create a low impedance path to ground

thus inhibiting the PCI local bus and any card in the

extender card connector from working.

Powering the PCI

Active Analysis

Probe

The Logic analyzer must be connected and powered on for

the PCI Active Analysis Probe to work properly. ONLY

connect to the analysis probe headers 7-10 if you are doing

64 bit analysis. Latchup may occur on the 64 bit interface

parts if they are powered on and not on a 64 bit bus.

The following explains how to connect the logic analyzer to the

PCI Active Analysis Probe for either state or timing analysis:

Connecting to the

PCI Active Analysis

Probe

1. Remove the probe tip assemblies from the logic

analyzer cables.

2. Plug the logic analyzer cables into the PCI Active

Analysis Probe cable headers as shown in the

appropriate following tables.

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Multiplexed versus

Demultiplexed

The PCI Local Bus specification specifies that the AD lines and

the C/BE lines carry different information at different times. This

is referred to as multiplexed. Using the extra clocking features

and additional pods of the logic analyzer the AD lines can be

demultiplexed. By using the PCI Active Analysis Probe in

demultiplexed mode the address of the transaction can be held

throughout the transaction thus making triggering and

performance analysis easier.

Please note that the C/BE lines have been demultiplexed on the

PCI Active Analysis Probe. Thus the command is held through

the transaction and no additional clocking or pods is required.

The latched command L_CMD signals are on pod 1 channels

10-7.

32 bit PCI Demultiplexed

Logic Analyzer

PCI Active Analysis

Probe

Comment

Master POD 1

POD 2

Header 1

Header 2

Header 3

Header 4

Header 5

POD 3

POD 4

POD 5

16554/5/6/7

expander

card POD 1

POD 6

Header 6

16554/5/6/7

expander

card POD 2

32 bit PCI Multiplexed

Logic Analyzer

PCI Active Analysis

Probe

Comment

Master POD 1

POD 2

Header 1

Header 2

Header 3

Header 4

POD 3

POD 4

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64 bit PCI Multiplexed

Logic Analyzer

PCI Active Analysis

Probe

Comment

Master POD 1

POD 2

Header 1

Header 2

Header 3

Header 4

Header 7

POD 3

POD 4

POD 5

16554/5/6/7

expander

card POD 1

POD 6

POD 7

Header 8

16554/5/6/7

expander

card POD 2

Header 11

16554/5/6/7

expander

card POD 3

16550 expander

card Pod 1

64 bit PCI Demultiplexed

Logic Analyzer

PCI Active Analysis

Probe

Comment

Master POD 1

POD 2

Header 1

Header 2

Header 3

Header 4

Header 5

POD 3

POD 4

POD 5

16554/5/6/7

expander

card POD 1

POD 6

POD 7

Header 6

Header 7

16554/5/6/7

expander

card POD 2

16554/5/6/7

expander

card POD 3

16550 expander

card Pod 1

POD 8

Header 8

16554/5/6/7

expander

card POD 4

16550 expander

card Pod 2

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POD 9

Header 9

Header 10

Header 11

16554/5/6/7

expander 2

card POD 1

16550 expander

card Pod 3

POD 10

POD 11

16554/5/6/7

expander

card POD 2

16550 expander

card Pod 4

16554/5/6/7

expander

card POD 3

16550 expander

card Pod 5

PCI Active Analysis Probe Header 4 contains 8 User Defined

pins. These pins are available to the user to connect whatever

additional signals the users wishes to view along with the PCI

bus. These pins are located below POD 3 on the PCI Active

USER PINS

Analysis Probe module and clearly marked. These user pins

are available on the logic analyzer on POD 11 channels 15 thru

These pins may be used to connect the individual IDSEL signals

from other PCI slots or the bus grant signals from the PCI bus

arbitration logic.

The PCI Active Analysis Probe can be installed in any slot of the

PCI Local bus. The following steps explain how to install the PCI

Active Analysis Probe into the PCI Local bus.

Installing the PCI

Active Analysis

Probe

1. Install the logic analyzer cables as described in the

previous section.

2. Power off the PCI target. Align the PCI module with the

appropriate slot on the target system and plug the

module into the PCI connector. Power on the logic

analyzer and then power on the target.

If your PCI Local bus is 32 bits the upper portion of the edge

connector will not be inserted into any connector. This will not

affect the modules operation on a 32-bit PCI Local bus.

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The card edge connector of the PCI Active Analysis Probe

module can accommodate one 32 or 64 bit 5V OR 3V PCI add in

card. The extender card connector is either a 3V or 5V

connector depending on how the board was ordered and

configured at the factory.

How to install a PCI

add-in card into the

extender card

connector

Simply align the module with the connector and gently push the

module in until it is seated in the connector. There is sufficient

clearance for the add-in card front plate. The PCI Active

Analysis Probe/PCI add-in card combination can then be

installed in any slot of the PCI Local bus. For mechanical

stability the PCI Active Analysis Probe front plate should be

secured to the PCI target system chassis.

When removing the PCI add-in card from the card edge extender

connector grasp the PCI Active Analysis Probe with one hand

and the PCI add-in card with the other. Gently rock the PCI add-

in card until it is free from the connector.

The nature of an extender card is that it extends the etch length

of the bus. Due to the sensitivity of most PCI designs, extending

the etch length can interfere with the PCI add-in card operation.

Operation of the PCI add-in card when installed in the card edge

extender connector is not guaranteed. Please check your

system design if you experience failures due to poor signal

fidelity.

Operation of the PCI

add-in card

The etch from the PCI local bus is routed directly from the PCI

local bus to the extender card connector. Although the etch is

connected to the input of the PCI Active Analysis Probe input

buffers, the extender card connector is NOT buffered from the

PCI local bus.

Please Note: If the Analysis Probe is plugged into the PCI

bus and the logic analyzer is not powered up, the input

buffers on the Analysis Probe will create a low impedance

path to ground thus inhibiting the PCI local bus and any

card in the extender card connector from working.

The Extender Card

Connector

The PCI bus is extended up from the gold fingers to the input of

the IDT162260 buffers. From the buffer input the etch goes

directly to the extender card connector. The buffer input

provides a clamping diode. The etch is extended approximately

5 inches from the gold fingers and is on the inner most layer of

the board. There are no via’s on this inner layer in order to give

this etch a direct route.

One issue that has been encountered with using the extender

card connector is that the buffers need power in order to provide

a high impedance to the signal. This means that the logic

analyzer must be attached to the Analysis Probe and powered

up. The PCI Active Analysis Probe module itself is a universal

card. It can operate in either a 5V or 3V PCI system.

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The logic analyzer can be configured for PCI analysis by loading

the PCI configuration file. Loading this file will load the PCI

Local bus inverse assembler and configure your logic analyzer.

To load the configuration and inverse assembler:

Setting up the

Analyzer from the

diskette

1. Install the PCI Active Analysis Probe software flexible

diskette in the disk drive of the logic analyzer.

2. Configure the menu to “Load” the analyzer with the

appropriate configuration file (see table below).

3. Execute the load operation to load the file into the logic

analyzer that the PCI Active Analysis Probe module is

connected to. DO NOT SELECT ALL OR SYSTEM.

Logic Analyzer

File

Comment

nam

e for

State

Anal

ysis

166x

P32M_66 32 bit Multiplexed - Analysis Probe PODS 1-4

connect to Logic Analyzer PODS 1-4

166x

P32D_66 32 bit Demultiplexed - Analysis Probe PODS

1-6 connect to Logic Analyzer PODS 1-6

166x

P64M_66 64-bit Multiplexed- Analysis Probe PODS 1-

4,7,8,11 to Logic Analyzer PODS 1-7

16550A

P32M_55 32 bit Multiplexed- Analysis Probe PODS 1-4

connect to Logic Analyzer PODS 1-4

P32D_55 32 bit Demultiplexed - Analysis Probe PODS

1-6 connect to Logic Analyzer PODS 1-6

P64AD55 32 bit address Demultiplexed and 64 bit data

Analysis Probe PODS 1-6,7,8 and 11

connect to Logic Analyzer PODS 1-6 on

the Master card and 1-3 on the Slave card

respectively.

16550A

P64M_55 64-bit Multiplexed - Analysis Probe PODS 1-

4,7,8,11 connect to LA PODS 1-6 on the

Master card and Pod 1 on the Slave card

respectively

16550A

P64D_55 64 bit Demultiplexed- Analysis Probe PODS

1-11 connect to Logic Analyzer PODS 1-6

on the Master card and PODS 1-5 on the

Slave Card respectively

1655x,167x

P32M_55 32 bit Multiplexed - Analysis Probe PODS 1-4

connect to Logic Analyzer PODS 1-4

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1655x,1670/71

1655x,1670

P32D_55 32 bit Demultiplexed - Analysis Probe PODS

1-6 connect to PODS 1-4 on the Master

card and 1-2 on the Slave card 1-2

respectively (PODS 1-6 on the 1670/71)

P64M_55 64-bit Multiplexed - Analysis Probe PODS 1-

4,7,8,11 connect to Logic Analyzer PODS

1-4 on the Master card and PODS 1-3 on

the Slave Card respectively (PODS 1-7

on the \1670)

1655x

P64D_55 64 bit Demultiplexed - Analysis Probe PODS

1-11 connect to Logic Analyzer PODS 1-

4 on the Master card, 1-4 on the lower

slave card (positioned below the master

card in the mainframe) and PODS 1-3 on

the slave card positioned above the

master card in the mainframe respectively

P64AD55 32 bit address Demultiplexed and 64 bit data

Analysis Probe PODS 1-6,7,8 and 11 to

Logic Analyzer PODS 1-4 on the Master

card, 1-4 on the lower slave card

(positioned below the master card in the

mainframe) and POD 1 on the slave card

positioned above the master card in the

mainframe respectively

The PCI Inverse

Assembler

The PCI Active Analysis Probe Inverse Assembler file IAP64E is

automatically loaded into the logic analyzer when the

configuration file is loaded. If the Inverse Assembler does not

appear on the state listing screen select the base of the label

DATA. From the menu that appears select INVASM. The

Inverse Assembler is only for use in state mode.

The PCI Active Analysis Probe diskette sets up the format menu

to include all of the signals that are presented to the logic

analyzer. This format is the same for both Timing and State

Analysis. the labels STAT, DATA , DATA_B, ADDR and

ADDR_B are required in order run the Inverse Assembler. They

should not be changed or deleted.

The Format Menu

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The STAT variable

The STAT variable is used by the PCI inverse assembler to

decode PCI bus transactions. It should not be changed or

deleted from the format menu. The signals that make up the

STAT variable are listed in the following table. The STAT

variable can be useful to set up SYMBOLS since it contains all of

the key PCI control and status signals.

STAT Variable

PCI Bus Signal Name

C/BE7

Bit 29

Bit 28

Bit 27

Bit 26

Bit 25

Bit 24

Bit 23

Bit 22

Bit 21

Bit 20

Bit 19

Bit 18

Bit 17

Bit 16

Bit 15

Bit 14

Bit 13

Bit 12

Bit 11

Bit 10

Bit 9

C/BE6

C/BE5

C/BE4

REQ64#

AVALID_L

WNODEV_L

ACK64# (DATA64)

TABORT_L

DVALID_L

WTARGET_L

IWINITI_L

RETRY_L

SERR#

IDLE_L

PVALID_L

MABORT_L

CPERR_L

STOP#

DEVSEL#

L_CM3

L_CM2

Bit 8

L_CM1

Bit 7

L_CM0

Bit 6

C/BE3

Bit 5

C/BE2

Bit 4

C/BE1

Bit 3

C/BE0

Bit 2

RESET#

PERR#

Bit 1

Bit 0

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The ADDR, ADDR_B, ADDR_C, DATA_B and DATA variables

are defined in the format menu and used to pass the AD line

information to the Inverse Assembler during state analysis. They

are mapped as shown in the below table. These variables

should not be changed or deleted from the format Menu.

The ADDR, ADDR_B ,

ADDR_C, DATA_B and

DATA variables

Mode

ADDR

ADDR_B

ADDR_C

DATA

DATA_

32 BIT

MUX

LOWER NOT

NOT USED

LOWER

32 AD

LINES

NOT

USED

32 AD

LINES

USED

32 BIT

DEMUX 32 AD

LINES

LOWER LOWER 32 NOT USED

LOWER

32 AD

LINES -

DATA

NOT

USED

AD -

ADDRESS

- DATA

64 BIT

MUX

LOWER NOT

NOT USED

LOWER

32 AD

LINES -

DATA

UPPER

32 AD

LINES

32 AD

LINES

- DATA

USED

64 BIT

DEMUX 32 AD

LINES

LOWER LOWER 32 UPPER 32

LOWER

32 AD

LINES -

DATA

UPPER

32 AD

LINES

AD -

AD LINES -

ADDRESS ADDRESS

- DATA

The BUS_UT variable

The Bus Utilization BUS_UT variable is made up of the following

cycle bits: WNODEV, ADVALID, TABORT, DVALID, WTARGET,

WINITI, RETRY, IDLE, MABORT. The list of symbols defined

for this variable are the signal names themselves. This is a

convenient grouping that helps make triggering and performance

analysis easier.

This variable is the C/BE[3:0] lines latched with the first rising

edge of the PCI clock with FRAME# asserted. These signals are

held until the end of the transaction. They indicated the

command that is being transmitted on the PCI Local bus. Below

is the encoding of these signals and the symbols defined for the

L_CMD variable. These encodings can also be found in the PCI

Specification.

The L_CMD variable

Symbol

INTACK

SPEC_CYC

I/O_RD

L_CMD encoding

0000

0001

0010

0011

I/O_WR

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RESRVD

0100

0101

0110

0111

1000

1001

1010

1011

1100

1101

1110

1111

001X

011X

101X

RESRVD

MEM_RD

MEM_WR

RESRVD

CON_RD

CON_WR

MEMRDM

DAC_CY

MEMRDL

MEMWRI

I/O_XACTIONS

MEM_XACTIONS

CONFIG_XACTIONS

The PCI Active Analysis Probe is a universal PCI short card that

attaches to Agilent logic analyzers. The Analysis Probe has five

major parts:

Theory of Operation

1. The input buffers

2. The latching buffers

3. The interface to the logic analyzer

4. The clocking and cycle bit generation logic

5. The extender card connector

The Input Buffers

The input buffers present a single electrical load on the PCI bus

and are made up of IDT162260 tri-port buffers. The PCI clock is

buffered by a Motorola 807 high speed clock buffer.

When the Analysis Probe is in Timing mode output Port 2 of the

tri-port buffers goes directly to the logic analyzer input

terminators. When in State mode output Port 2 is tri-stated.

Output port 1 is always enabled and goes to the latching buffers.

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The Latching Buffers

The latching buffers are used only for state mode. The entire

PCI bus (except the clock) is latched in these buffers on the

rising edge of the PCI clock. The input to the latching buffers is

output port 1 from the input buffers. The latching buffers are IDT

162511 latching buffers with party generation. These buffers are

tri-stated in timing mode. In state mode their outputs go directly

to the logic analyzer input terminators.

The User pin signals are not latched.

The input to the logic analyzer consists of 3 parts.

1. The RC terminators (90 ohm/10pf)

2. The 40 pin headers

The interface to the

Logic Analyzer

3. The 40 pin cables

The user is instructed to remove the probe tip assemblies from

the logic analyzer headers. The 40 pin logic analyzer headers

then go directly the 40 pin headers of the Analysis Probe

provided cables. Any unused cables can be removed from the

Analysis Probe.

The logic analyzer provides the power to the onboard logic. No

power is obtained from the target.

The master clock is controlled by the front panel switches and is

generated by the on-board CPLD devices. When the user has

loaded the DEMULTIPLEXED configuration file an additional

Slave clock is added. This Slave clock is the falling edge of the

Analysis Probe generated AVALID signal. This signal asserts

with the first assertion of FRAME# and the rising edge of the PCI

clock. All of the PCI cycle bits are generated based on the

latched version of the PCI control signals. Their meaning is

listed in the following table.

The Clocking and Cycle

bit Generation Logic

Cycle bit name

Function

EOFT_L - End of Transaction True for one clock cycle and indicates

the last cycle of a transaction

CPERR_L - Calculated Parity True for one clock cycle and indicates

Error

that the on board parity logic has

detected a parity that is different than

the parity transmitted on the bus.

Please note that the Parity Checking

switch must be in the ON position.

MABORT_L - Master Abort

True when a Master Abort condition has

been detected. Five clock cycles on a

single data transfer with no DEVSEL

assertion and six clock cycles on a

multi-beat transfer with no DEVSEL

asserted. Remains true for one clock

cycle.

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PVALID_L - Parity Valid

IDLE_L - Idle cycle

True for the cycles in which parity is

being transmitted on the PCI bus.

True when the bus is IDLE. False when

the bus is busy.

DVALID_L - Data Valid

True when data is being transferred on

the PCI bus.

WINITI_L - Master Initiated

Wait State

True when a wait state is being initiated

by the master

WTARGET_L - Target

Initiated Wait State

True when a wait state is being initiated

by the target

RETRY_L - Retry

True when a retry condition has been

detected on the PCI bus

TABORT_L - Target Abort

True when a Target Abort condition has

been detected on the PCI bus. This

signal is true for one clock bit.

WNODEV_L - Wait state

caused by no assertion of

DEVSEL#

True when a wait state has been

caused by no assertion of DEVSEL#.

GNT_L - The Grant signal for In State Mode this signal is latched and

that slot

held until end of transaction. Useful as

a store qualifier.

In timing mode the GNT# from the PCI

bus is passed through to the logic

analyzer.

L_CMD - The latched

command lines

The C/BE signals latched during the

command /address phase and held until

end of transaction.

AVALID_L - Address Valid

True on the first assertion of FRAME#

and the rising edge of the PCI clock.

True for one cycle except on Dual

Address cycles when it is true for two

cycles.

The Data Parity

Checking Logic

Parity checking is only available in STATE Mode and is

controlled by the PARITY ON switch on the front panel. The

parity generation is done by the IDT 162511 latching buffers.

Only data parity is generated and then checked against the data

parity that is transferred on the bus. If they are not the same

then the signal CPERR_L will be asserted on the cycle that the

parity is valid. This signal will remain valid for one clock tic.

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State Analysis

This chapter explains how to configure the PCI Active Analysis

Probe to perform state analysis on the PCI Local Bus. The

configuration software on the flexible diskette sets up the format

specification menu of the logic analyzer for compatibility with the

PCI Local Bus. The next chapter explains how to configure the

PCI Active Analysis Probe to perform timing analysis.

The following procedure describes the major steps required to

perform measurements with the PCI Active Analysis Probe

module.

Installation Quick

Reference

1. After removing the probe tip assemblies, plug the logic

analyzer cables into the Analysis Probe cable headers.

See page 11 of this manual for details.

2. Set the STATE/TIMING switch to STATE. The State

LED will be lit.

3. Power off the target. Install the PCI Active Analysis

Probe module into a slot in the target PCI Local bus.

Then power on the target.

Load the logic analyzer configuration file by loading the

appropriate file from the Analysis Probe interface diskette. See

page 16 of this manual for details.

The front panel switches are only useful in STATE MODE. They

are clearly marked on the front panel.

Using the front panel

switches in state

mode

•

The Parity On switch controls parity checking. If the Parity

On LED is lit then parity checking will be done.

The No Wait switch controls the acquisition of WAIT cycles.

If the No Wait LED is lit then no wait cycles will be acquired.

The No Idle switch controls the acquisition of IDLE cycles. If

the No Idle LED is lit then NO IDLE cycles will be acquired.

The TDO-TDI switch from the top connects TDO to TDI. If

the switch is to the rightmost position TDO is connected to

TDI.

•

The State/Timing switch controls the on board latches.

When the State LED is lit then the PCI Active Analysis Probe

is in State mode.

Refer to page 10 for more details on the LEDs and switches.

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Touch RUN and, as soon as there is activity on the bus, the logic

analyzer will begin to acquire data. The analyzer will continue to

acquire data and will display the data when the analyzer memory

is full, the trigger specification is TRUE or when you touch

STOP.

Acquiring Data

The logic analyzer will flash “Slow or Missing Clock” when the

data is not being transmitted across the bus.

Captured data is as shown in the following figure. The below

figure displays the state listing after disassembly. The inverse

assembler is constructed so the mnemonic output closely

resembles the actual commands, status conditions, messages

and phases specified in the PCI Local Bus specification.

Symbols have also been defined to help aid in analysis. The

non-disassembled state listing displays PCI bus mnemonics in

addition to data. All data is displayed in hex. One exception is

the decode of the address for a CONFIGURATION READ or a

CONFIGURATION WRITE transaction. The Function (FUNC=)

and Bus (BUS=) data is displayed in decimal.

The State Display

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The following error messages are reported by the PCI

inverse assembler.

Error Messages

ERROR-NO DEVICE SELECTED

This error is displayed during a non special cycle data phase

when IRDY and TRDY are asserted and DEVSEL is not

asserted.

ERROR DEVSEL ASSERTED

This error is displayed during a special cycle data phase if

DEVSEL is asserted.

SYSTEM ERROR

This error is displayed anytime SERR# is asserted.

The INVASM OPTIONS feature is not included with the PCI

Active Analysis Probe software. The same or better capability

for post processing acquired data can be achieved using the

16505A Pattern Filters.

INVASM OPTIONS

After the configuration file is loaded the PCI PC Mapper software

can be loaded:

Setting up the

Analyzer to use the

PC Mapper Inverse

Assembler

1. Install the PCI Analysis Probe software flexible diskette

in the disk drive of the logic analyzer.

2. Configure the menu to “Load” the analyzer that is

connected to the PCI Active Analysis Probe with the file

names IAP64EXM.

3. Execute the load operation to load the file into the logic

analyzer.

Data can be acquired by touching the RUN button. As soon as

there is activity on the bus, the logic analyzer will begin to

acquire data. The analyzer will continue to acquire data and will

display the data when the analyzer memory is full, the trigger

specification is TRUE or when you touch STOP.

Acquiring Data

The logic analyzer will flash “Slow or Missing Clock” if the PCI

Clock signal is not being detected by the logic analyzer. In this

case, check the logic analyzer to PCI Active Analysis Probe

connection (refer to your User’s Manual).

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Captured data is as shown in the following figure. The first figure

displays the state listing after disassembly. The PCI PC Mapper

is constructed so the mnemonic output closely resembles the

actual commands, status conditions, messages and phases

specified in the PCI Local Bus specification. Symbols have also

been defined to help aid in analysis. The non-disassembled

state listing displays PCI bus mnemonics in addition to data. All

data is displayed in hex. One exception is the decode of the

address for a CONFIGURATION READ or a CONFIGURATION

WRITE transaction. The Function (FUNC=) and Bus (BUS=)

data is displayed in decimal.

The State Display

with the PCI PC

Mapper

The above display data using the PCI Inverse Assembly

software without the PCI PC Mapper functionality is shown as

follows.

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Error Messages

The error messages reported by the PCI PC Mapper are the

same as those reported with the standard non mapper version of

the PCI Inverse Assembler.

This section lists the addresses, the commands and the

corresponding mapping done by the PCI PC Mapper software.

For information on the standard PCI configuration register

mapping please refer to the PCI Local Bus Specification Rev 2.0.

PCI PC Mapping for

memory transactions

Address bits 23-0

greater than 0FFFFFH

0FFFFF-0E0000H

0DFFFF-0C0000H

0BFFFF-0A0000H

09FFFF-000400H

0003FF-000000H

PC Mapper output

System Memory

System BIOS

ROM Scan

Video Memory

System Memory

See Interrupt Vector Table

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Address bits

23-0

PC Mapper output

Interrupt Vector

Table

0003C4H

000200H

0001E0H

0001DCH

0001D8H

0001D4H

0001D0H

0001CCH

0001C8H

0001C4H

0001C0H

0001A0H

00019CH

000180H

00012CH

000128H

00011CH

000118H

000110H

00010CH

000108H

000104H

000100H

000080H

00007CH

000078H

000074H

000070H

00006CH

000068H

000064H

000060H

00005CH

000058H

000054H

000050H

00004CH

000048H

000044H

000040H

00003CH

000038H

000034H

000030H

00002CH

000028H

000024H

000020H

00001CH

000018H

000014H

000010H

00000CH

INT #F1-FF USER PROGRAMS

INT #80-F0 BASIC

INT #78-7F USER PROGRAMS

INT #77 IRQ15

INT #76 IRQ14

INT #75 IRQ13

INT #74 IRQ12

INT #73 IRQ11

INT #72 IRQ10

INT #71 IRQ9

INT #70 IRQ8

INT #68-6F RESERVED

INT #67 EXP MEM MANG

INT #60-66 USER PROGRAMS

INT #4B-5F RESERVED

INT #4A USER RTC ALARM

INT #47-49 RESERVED

INT #46 HD DISK #1 PARAM

INT #44-45 RESERVED

INT #43 VIDEO CHAR TABLE

INT #42 EGA BIOS

INT #41 HD DISK #0 PARAM

INT #40 FLOPPY DISK ISR

INT #20-3F RESERVED DOS

INT #1F VIDEO CHAR TABLE

INT #1E FLOPPY PARAMS

INT #1D AVAILABLE

INT #1C AVAILABLE

INT #1B KEYBOARD BREAK

INT #1A RTC ISR

INT #19 BOOSTRAP LOADER

INT #18 ROM BASIC

INT #17 LPT PRINTER BIOS

INT #16 KEYBOARD BIOS

INT #15 SYS SERVICE BIOS

INT #14 SERIAL PORT BIOS

INT #13 FLOPPY DISK BIOS

INT #12 MEM SIZE INT

INT #11 EQUIP LIST

INT #10 VIDEO BIOS

INT #0F IRQ7 LPT1

INT #0E IRQ6 FLOPPY DISK

INT #0D IRQ5 LPT2

INT #0C IRQ4 SERIAL #1

INT #0B IRQ3 SERIAL #2

INT #0A IRQ2 SLAVE INT

INT #09 KEYBOARD

INT #08 IRQ0 SYS TIMER

INT #07 NUM COPROCESSOR

INT #06 INVALID OPCODE

INT #05 PRINT SCREEN

INT #04 OVERFLOW DETECT

INT #03 BREAKPOINT TRACE

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000008H

000004H

000000H

INT #02 NMI

INT #01 SINGLE STEP

INT #00 DIVIDE BY ZERO

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Address bits PC Mapper output

23-0

PCI PC Mapping - I/O

Transactions

0000H

0001H

0002H

0003H

0004H

0005H

0006H

0007H

0008H

0009H

000AH

000BH

000CH

000DH

000EH

000FH

0018H

001AH

0020H

0021H

0040H

0042H

0043H

0044H

0047H

0060H

0061H

0064H

0070H

0071H

0074H

0075H

0076H

0081H

0082H

0083H

0087H

0089H

008AH

008BH

008FH

0090H

0091H

0092H

0094H

0096H

00A0H

00A1H

00C0H

00C2H

00C4H

00C6H

00C8H

MSTR DMA CH 0

MSTR DMA CH 1

MSTR DMA CH 2

MSTR DMA CH 3

MSTR DMA STAT REG

UNKNOWN IO DEVICE

MSTR DMA MASK REG

MSTR DMA MODE REG

MSTR DMA CLR BYTE PTR

MSTR DMA MSTR CLEAR

MSTR DMA CLEAR MASK

MSTR DMA WRT MASK

MSTR DMA CH EXT FUNCT REG

MSTR DMA EXT FUNCT

MSTR INT REQ REG

MSTR INT REQ REG2

INTERVAL TIMER TIMER 0

INTERVAL TIMER SPKR TIMER

INTRVAL TIMER #1 CNTRL

INTERVL TIMER #2 WATCHDOG

INTERVAL TIMER #2 CNTRL

KEYBOARD/MOUSE DATA PORT

SYSTEM CONTOL PORT B

KEYBOARD/MOUSE CMD PORT

RTC/CMOS RAM ADDR PORT

RTC/CMOS RAM DATA PORT

EXT CMOS RAM ADDR PORT

EXT CMOS RAM DATA PORT

CH 2 DMA PAGE REGISTER

CH 3 DMA PAGE REGISTER

CH 1 DMA PAGE REGISTER

CH 0 DMA PAGE REGISTER

CH 6 DMA PAGE REGISTER

CH 7 DMA PAGE REGISTER

CH 5 DMA PAGE REGISTER

CH 4 DMA PAGE REGISTER

ARB CNTRL POINT REG

FEEDBACK REG

SYSTEM CONTROL PORT A

SYS SETUP/CARD ENABLE REG

ADAPTOR SETUP/ENABLE REG

SLAVE INTERRUPT CNTRLR

SLAVE DMA CH4 MEM ADDR

SLAVE DMA CH4 TRANS COUNT

SLAVE DMA CH5 MEM ADDR

SLAVE DMA CH5 TRANS COUNT

SLAVE DMA CH6 MEM ADDR

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00CAH

00CCH

00CEH

00D0H

00D4H

00D6H

00D8H

00DAH

00DCH

00DEH

00E0H

00E1H

00F1H

00F8H

00F9H

00FAH

00FBH

00FCH

0100H

0101H

0102H

0103H

0104H

0105H

0106H

0107H

0278H

0279H

027AH

02F8H

02F9H

02FAH

02FBH

02FDH

02FEH

02FFH

0378H

0379H

037AH

03B4H

03B5H

03BAH

03BCH

03BDH

03BEH

03C0H

03C1H

03C2H

03C3H

03C4H

03C5H

03C6H

03C7H

03C8H

03C9H

SLV DMA CH6 TRANS COUNT

SLAVE DMA CH7 MEM ADDR

SLAVE DMA CH7 TRANS COUNT

SLV DMA STATUS REG CH 4-7

SLV DMA MASK REG CH 4-7

SLAVE DMA MODE REG CH 4-7

SLAVE DMA CLEAR BYTE PNTR

SLAVE DMA MASTER CLEAR

SLV DMA CLR MASK CH 4-7

SLAVE DMA WRITE MASK REG

IBM MODELS - ENCODE REG

NUMERIC COPROCESSOR RESET

NUMERIC COPROCESSOR PORT

ADAPTER CARD POS REG 0

ADAPTER CARD POS REG 1

SYS BD/ADP CD POS REG 2

SYS BD/ADP CD POS REG 3

ADAPTER CARD POS REG 4

ADAPTER CARD POS REG 5

ADAPTER CARD POS REG 6

PARALLEL PORT 3 DATA PORT

PARALLEL PORT 3 STAT PORT

PARALLEL PORT 3 CMD PORT

SERIAL PORT 2 XMIT/REC

SER PORT 2 DIV LATCH/INT

SERIAL PORT 2 INT ID REG

SERIAL PORT 2 CNTRL REG

SERIAL PORT 2 MODEM CNTRL

SERIAL PORT 2 MODEM STAT

SERIAL PORT 2 SCRTCH REG

PARALLEL PORT 2 DATA PORT

PARALLEL PORT 2 STAT PORT

PARALLEL PORT 2 CMD PORT

VGA CRT CNTRLR ADDR REG

VGA CRT CNTRLR DATA REG

VGA STAT 1/FEATURE CNTRL

PARALLEL PORT 1 DATA PORT

PARALLEL PORT 1 STAT PORT

PARALLEL PORT 1 CMD PORT

VGA ATTRIBUTE CNTRLR ADDR

VGA ATTRIBUTE CNTRLR DATA

VGA OUTPUT/STAT REG

VGA VIDEO SUBSYSTM ENABLE

VGA SEQUENCER ADDR REG

VGA SEQUENCER DATA REG

VIDEO DAC PEL MASK

VIDEO DAC PAL ADDR/STAT

VIDEO DAC PAL ADDR/WRITE

VIDEO DAC PALETTE DATA

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03CAH

03CCH

03CEH

03CFH

03D4H

03D5H

03DAH

03F0H

03F1H

03F2H

03F4H

03F5H

03F7H

03F8H

03F9H

03FAH

03FBH

03FCH

03FDH

03FEH

03FFH

0680H

VGA FEATURE CONTOL REG

VGA MISC OUTPUT REG

VGA GRAPHICS CNTRLR ADDR

VGA CRT CNTRLR ADDR REG

VGA GRAPHICS CNTRLR DATA

VGA COLOR STAT 1/FEATURE

FLOPPY STATUS REG A

FLOPPY STATUS REG B

FLOPPY DIGITAL OUTPUT REG

FLOPPY DISK CNTRLR STAT

FLOPPY DISK CNTRLR DATA

FLOPPY CONFIG CONTROL REG

SERIAL PORT 1 XMIT/RCV BUF

SER PORT 1 DIV LATCH/INT

SERIAL PORT 1 INT ID/FIFO

SERIAL PORT 1 LINE CNTRL

SERIAL PORT 1 MODEM CNTRL

SERIAL PORT 1 STAT REG

SERIAL PORT 1 MODEM STAT

SERIAL PORT 1 SCRATCH REG

MANUFCTURNG CHCKPNT PORT

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Timing Analysis

The following procedure describes the major steps required to

perform timing analysis measurements with the PCI Active

Analysis Probe module.

Installation Quick

Reference

1. Set the State/Timing switch to TIMING. The State LED

will be doused. See page 10 of this manual for details

on the front panel switches.

2. After removing the probe tip assemblies, plug the logic

analyzer cables into the Analysis Probe cable headers.

See pages 12 and 13 of this manual for details.

3. Power down the PCI target. Install the PCI Active

Analysis Probe module into a slot in the non-powered

target PCI Local bus. Then power up the target.

4. Load the logic analyzer configuration file by loading the

appropriate file from the Analysis Probe interface

diskette. See pages 16 and 17 of this manual for

details.

Since the PCI Active Analysis Probe contains active input

buffers it introduces skew to the PCI Local Bus signals. The

skew is as follows:

Timing Mode Skew

•

Any PCI bus signal to the PCI clock -1.0 to +2.3ns

maximum

•

Any PCI bus signal to any other PCI bus signal 2.1ns

maximum

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Although the Cycle bit and the L_CMD lines were designed for

state analysis they can prove to be very useful in Timing

analysis. These bits can be effectively used to trigger the timing

analyzer. Note that the cycle bits and L_CMD lines pass through

more active logic than the PCI signals directly from the bus. For

this reason they may not line up exactly with the ADDR lines and

should not be used for precise timing measurements.

Using the Cycle bits

and L_CMD lines

The demultiplexed feature of the PCI Active Analysis Probe is

not applicable to timing mode. Therefore for 32 bit timing mode

analysis does not require PODS 5 and 6 and 64 bit timing mode

analysis does not require PODS 9 and 10.

Demultiplexed

versus Multiplexed

If switching between demultiplexed state and timing mode those

PODS can be ignored when in timing mode. If doing only timing

mode the multiplexed files should be used.

Touch RUN and the logic analyzer will begin to acquire data.

The analyzer will continue to acquire data and will display the

data when the analyzer memory is full, the trigger specification is

TRUE or when you touch STOP.

Acquiring Data

The logic analyzer will flash “Waiting for Trigger” while the trigger

specification is NOT TRUE.

The Waveform

Display

Captured data is displayed as shown in the following figure.

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General Information

This chapter provides additional reference information including

the characteristics and signal connections for the PCI Active

Analysis Probe module.

The following operating characteristics are not specifications, but

are typical operating characteristics for the PCI Active Analysis

Probe module.

Characteristics

Analysis Probe Interface

Compatibility

32/64 bit PCI Local bus accepting the short card length and

universal connector pinout. All PCI local bus ground pins of the

universal board pinout are connected to the ground plane of the

PCI Active Analysis Probe module.

JTAG Boundary Scan

The PCI Present Pins

The PCI Active Analysis Probe does not implement JTAG

Boundary SCAN. Pins TDI and TBO (pins 4a and 4b) are

connected together so the scan chain is not broken.

The PCI signals PRSNT1# and PRSNT2# are routed to the PCI

Active Analysis Probe extender card connector.

Standards Supported

Power Requirements

The PCI Local Bus Specification Revision 2.1.

The PCI Active Analysis Probe contains several active

components that buffer the PCI signals before they are acquired

by the logic analyzer. The Analysis Probe takes no power from

the PCI bus but is powered by the logic analyzer.

Logic Analyzer Required

Number of Probes Used

1660A/C, 1661A/C, 1662A/C, 16550A, 16554A, 16555A,

16556A, 1670A, 1671A, 1672A

32 bit PCI multiplexed - 4 cable headers

32 bit PCI demultiplexed - 6 cable headers

32 bit address demultiplexed, 64 bit data - 9 headers

64 bit PCI multiplexed - 7 cable headers

64 bit PCI demultiplexed - 11 cable headers

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Minimum Clock Period

(State)

0 to 33Mhz PCI clock for State mode and 0-100Mhz for Timing

Mode.

Signal loading

The PCI Active Analysis Probe logic analyzer interface presents

only one electrical load on each PCI bus signal. However, the

extender card connector is an additional 4 inches beyond the

maximum allowed stub length.

Operations

All PCI Local Bus operations supported.

Environmental

Temperature

Operating:0 to 55 degrees C (+32 to +131 degrees F)

Non operating:-40 to +75 degrees C (-40 to +167 degrees F)

Operating: 4,6000m (15,000 ft)

Altitude

Non operating: 15,3000m (50,000 ft)

Up to 90% non condensing. Avoid sudden, extreme temperature

changes which would cause condensation on the Analysis Probe

module.

Humidity

There are no automatic performance tests or adjustments for the

PCI Active Analysis Probe module. If a failure is suspected in

the PCI Active Analysis Probe module contact the factory or your

FuturePlus Systems authorized distributor.

Testing and

Troubleshooting

The repair strategy for the PCI Active Analysis Probe is module

replacement. However, if parts of the PCI Active Analysis Probe

module are damaged or lost contact the factory for a list of

replacement parts.

Servicing

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The PCI Active Analysis Probe module monitors signals for both

state and timing analysis. The below figure displays how the

cable headers are numbered.

Signal Connections

39 37 35 33 31 29 27 25 23 21 19 17 15 13 11 9 7 5 3 1

40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2

The following tables list the PCI Active Analysis Probe cable

headers and the corresponding PCI Local Bus signals after

these signals have been terminated by the 90K ohm/10pf

terminators.

Analysis

Probe Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 1 pin 3

CLK/16

PCI Clock

no connect

FRAME#

IRDY#

TRDY#

STOP#

DEVSEL#

L_CMD3

L_CMD2

L_CMD1

L_CMD0

C/BE3#

C/BE2#

C/BE1#

C/BE0#

RST#

PERR#

INTx#

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Analysis

Probe Logic

Analyzer Signal name

Cable Header and channel number

Pin number

Header 2 pin 3

CLK/16

GNT_L

no connect

REQ#

IDSEL#

WNODEV_L

ACK64# (DATA64)

TABORT_L

RETRY_L

WTARGET_L

WINITI_L

DVALID_L

SERR#

IDLE_L

PVALID_L

MABORT_L

CPERR_L

EOFT_L

PAR

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Analysis

Probe Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 3 pin 3

CLK/16

M_CLK_H

no connect

AD15

AD14

AD13

AD12

AD11

AD10

AD09

AD08

AD07

AD06

AD05

AD04

AD03

AD02

AD01

AD00

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Analysis

Probe Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 4 pin 3

CLK/16

AVALID_L

no connect

AD31

AD30

AD29

AD28

AD27

AD26

AD25

AD24

AD23

AD22

AD21

AD20

AD19

AD18

AD17

AD16

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Analysis

Probe Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 5 pin 3

CLK/16

no connect

AD15

AD14

AD13

AD12

AD11

AD10

AD09

AD08

AD07

AD06

AD05

AD04

AD03

AD02

AD01

AD00

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Analysis

Probe Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 6 pin 3

CLK/16

no connect

AD31

AD30

AD29

AD28

AD27

AD26

AD25

AD24

AD23

AD22

AD21

AD20

AD19

AD18

AD17

AD16

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Analysis Probe

Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 7 pin 3

CLK/16

REQ64#

no connect

AD47

AD46

AD45

AD44

AD43

AD42

AD41

AD40

AD39

AD38

AD37

AD36

AD35

AD34

AD33

AD32

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Analysis

Probe Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 8 pin 3

CLK/16

no connect

AD63

AD62

AD61

AD60

AD59

AD58

AD57

AD56

AD55

AD54

AD53

AD52

AD51

AD50

AD49

AD48

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Analysis Probe

Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 9 pin 3

CLK/16

no connect

AD47

AD46

AD45

AD44

AD43

AD42

AD41

AD40

AD39

AD38

AD37

AD36

AD35

AD34

AD33

AD32

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Analysis

Probe Logic

Analyzer PCI Signal name

Cable Header and channel number

Pin number

Header 10 pin 3

CLK/16

no connect

AD63

AD62

AD61

AD60

AD59

AD58

AD57

AD56

AD55

AD54

AD53

AD52

AD51

AD50

AD49

AD48

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Analysis

Probe Logic

Analyzer Signal name

Cable Header and channel number

Pin number

Header 11 pin 3

CLK/16

no connect

USER PIN 8

USER PIN 7

USER PIN 6

USER PIN 5

USER PIN 4

USER PIN 3

USER PIN 2

USER PIN 1

LOCK#

PAR64

SONE

SBO

CBE7

CBE6

CBE5

CBE4

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