Agilent Technologies Thermometer FS2343 User Manual

FuturePlus® Systems

Corporation

FBDIMM INTERPOSER PROBE

FS2343

Users Manual

For use with Agilent Technologies Logic Analyzers

Revision 1.2

FuturePlus is a trademark of FuturePlus Systems Corporation

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Symbols..................................................................................................................................17

Preferences............................................................................................................................19

SM (SMBus) Control ............................................................................................................21

Paddle card Settings ..................................................................................................................... 21

Probe Settings................................................................................................................................ 21

Event Bus Cabling ........................................................................................................................ 22

Probe Control Application....................................................................................................22

Loading the Probe Control Software.......................................................................................... 22

Using the Probe Control Software .............................................................................................. 22

Setup...........................................................................................................................................................23

SB Commands............................................................................................................................................24

Store Qualification......................................................................................................................................25

Trigger Events ............................................................................................................................................26

Event Bus ...................................................................................................................................................27

State Analysis Operation.......................................................................................................28

Setting Sample Positions .............................................................................................................. 28

State Display.................................................................................................................................. 30

Offline Analysis.....................................................................................................................30

Appendix................................................................................................................................33

FS2343 Paddle Signal to Logic Analyzer Connector and Channel Mapping.......................... 33

General Information.............................................................................................................45

Probe Connection .......................................................................................................................................45

Protocol supported......................................................................................................................................45

Logic Analyzer required.............................................................................................................................45

Logic Analyzer Adapter Cables required ...................................................................................................45

Service requirements ..................................................................................................................................45

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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

Due to wide variety of possible customer target implementations, the FS2343

FBDIMM Interposer probe has a 30 day acceptance period by the customer from

the date of receipt. If the customer does not contact FuturePlus Systems within 30

days of the receipt of the product it will be determined that the customer has

accepted the product. If the customer is not satisfied with the FS2343 FBDIMM

Interposer probe they may return it within 30 days for a refund.

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.

Limitation of warranty

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, 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.

Exclusive Remedies

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.

Assistance

Product maintenance agreements and other customer assistance agreements are

available for FuturePlus Systems products. For assistance, contact the factory.

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Software License Agreement

IMPORTANT - Please read this license agreement carefully before opening the media

envelope. Rights in the software are offered only on the condition that the customer

agrees to all terms and conditions of the license agreement. Opening the media

envelope indicates your acceptance of these terms and conditions. If you do not agree

to the licensing agreement, you may return the unopened package for a full refund.

License Agreement

In return for payment for this product, FuturePlus Systems grants the Customer a

SINGLE user LICENSE in the software subject to the following:

Use of the software

Customer may use the software on any one Agilent 1690x mainframe logic analysis system.

Customer may make copies or adaptations of the software.

•

Customer may not reverse assemble or decompile the software.

Copies and Adaptations

•

Are allowed for archival purpose only.

•

When copying for adaptation is an essential step in the use of the software with the logic

analyzer and/or logic analysis mainframe so long as the copies and adaptations are used in no

other manner. Customer has no right to copy software unless it acquires an appropriate license

to reproduce it from FuturePlus Systems.

Customer agrees that it does not have any title or ownership of the software, other than the

physical media.

Ownership

•

Customer acknowledges and agrees that the software is copyrighted and protected under the

Transfer of the right of ownership shall only be done with the consent of FuturePlus Systems.

Sublicensing and Distribution

Customer may not sublicense the software or distribute copies of the software to the public in

physical media or by electronic means or any other means without the prior written consent of

FuturePlus Systems.

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Introduction

Thank you for purchasing the FuturePlus Systems FS2343 FBDIMM Interposer Logic

Analyzer Probe. We think you will find the FS2343, along with your Agilent Technologies

Logic Analyzer, a valuable tool for helping to characterize and debug your FBDIMM-

based systems. This Users Guide will provide the information you need to install,

configure, and use the FBDIMM Interposer Probe. If you have any questions about this

Guide or use of this probe, please contact FuturePlus Systems Corporation.

Probe Performance Limitation

The FS2343 Interposer probe is subject to the limitation inherent in probing the FBDIMM

bus at 4 GHz and the extension of the high speed trace lengths of one FBDIMM slot by

65 mm. The probe is also dependent on the “logic analyzer interface” decode function of

the Advanced Memory Buffer chip used as an interface between the FBDIMM High

speed signals and the logic analyzer. If you have any questions please contact

FuturePlus Systems.

Definitions

Logic Analyzer Modules

"Module" - A set of logic analyzer cards that have been configured (via cables

connecting the cards) to operate as a single logic analyzer whose total available

channels is the sum of the channels on each card. A trigger within a module can be

specified using all of the channels of that module. Each module may be further broken

up into "Machines”. A single module may not extend beyond a single 5 card 16900

frame.

Logic Analyzer Machine

"Machine" - A set of logic analyzer pods from a logic analyzer module grouped together

to operate as a single state or timing analyzer.

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FS2343 Probe Description

The FS2343 FBDIMM Interposer Probe is based on the “Logic Analyzer Interface (LAI)

Mode” of the Advanced Memory Buffer chip used on Fully Buffered DIMMs. This mode

allows decoding of the Primary Southbound (from memory controller to FBDIMMs)

Commands and Data as well as Secondary Northbound Commands and Data from the

interposed FBDIMM located in the card edge connector on the top of the FS2343

Interposer Probe.

The probe can provide a single Southbound frame of 120 bits (10 lanes of 12 bits each)

as well as a Northbound frame of 168 bits (14 lanes of 12 bits each) to the logic

analyzer. On each line of the trace list a complete Northbound and Southbound frame is

captured to simplify triggering. State Analysis of these frames is provided through the

use of a Protocol Decoder.

The probe requires control through a SMBus provided by the logic analyzer. This control

is provided with the probe that runs on the 16900 workspace and is linked to the probe

thru the SMBus ports in the logic analyzer cards when used with the 1690x series

Agilent Logic Analyzer frames. 16753/4/5/6 as well as 16950 cards are supported. This

LAI control Probe Add-In allows the user complete control over the LAI mode functions

of the AMB used in the FS2343 to control Set-up, Triggering, Store Qualification, and

AMB Register parameters.

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Probe Technical Feature Summary

•

Quick and easy connection between a 240 pin FBDIMM connector and Agilent

1690x Logic Analyzers.

•

Complete and accurate state analysis of Primary South and Secondary Northbound

FBDIMM traffic as seen by the AMB in LAI mode on the Interposer probe.

Integrated control of Advanced Memory Buffer Logic Analyzer Interface functions.

Ability to accept an FBDIMM and hence allow full backplane performance

evaluation.

•

Probe Components

The following components have been shipped with your FS2343 Probe:

•

FS2343 Interposer Probe with cable attached Paddle card for logic analyzer

connection

1 10” EV cable, 3 .100” center pin jumpers, and mechanical brackets for support of

the probe in either 180 degree or 90 degree orientations.

•

External AC power supply for the FS2343 Interposer probe.

CD containing Protocol Decode software for 1690x frame or offline analysis, as well

as the Probe Control software

•

This Users Guide and other information on CD-ROM.

Quick Start Sheet.

Software Entitlement Certificate for 1690x or offline analysis.

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Probe Set-up

Probe overview

The FS2343 Interposer probe uses an AMB device in “LAI” mode and provides the

appropriate FBDIMM connections to an “interposed” FBDIMM device for it to operate

within the memory bus. The LAI mode performs 2 functions. First, it demultiplexes and

decodes the NB and SB traffic into the frame based information that is presented to the

logic analyzer. Second, it acts as a link in the NB and SB chain in the memory bus. In

this case it looks logically as an “upstream” or northside node to the interposed FBDIMM

in its straddle connector.

Mechanical Brackets

The FS2343 Interposer probe can be used in several orientations. The first is a straight

up from the backplane, or 180 degree orientation, which requires that the 2 straight

brackets be assembled to the probe at its top and bottom with the associated nylon

hardware.

Care must be taken whenever the flex portion of the probe is moved, as FBDIMM

signal integrity will degrade with repeated flexing.

Make sure that no portion of the probe is touching other surfaces in the target

system and be sure that the cables from the probe to the Paddle card are free

from kinks and any sharp or hot surfaces that may damage the cables.

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The other orientation for the probe is with a 90 degree bend to either it’s front (AMB) or

back side. There are right angle brackets provided to keep the probe in this position

along with the associated nylon hardware. It is our recommendation that the interposed

FBDIMM be placed in the probe before the probe is bent over. This provides additional

stiffness at the FBDIMM straddle mount connector on the top of the probe.

The right angle brackets bend the probe in a “high” position which would allow a user to

place a second FS2343 Interposer in the slot next to it bent at a “lower” angle that would

allow the second probe to nest underneath the first probe bent and secured by the

brackets in the “high” position.

Be very careful when nesting 2 Interposer probes. Make sure there is good

ventilation for all the AMB chips and that the cables are not kinked or resting on

any sharp or hot objects.

External Power supply

The FS2343 Interposer probe requires the use an external DC power supply. This unit is

provided as part of the product and is required for the probe to operate. It is connected

to the probe with a mini plug. Do not use any other DC supply with the probe.

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Signal Assignments on Probe Pods

There are signal connections for up to 6 different logic analyzer adapter cables

(E5378A). This provides the user with some flexibility in terms of which signals they

connect to based on the type of analysis that is needed, e.g. SB or NB only, all trigger

events, SB and NB traffic together, etc. The 16753/4/5/6 cards require the E5378A

adapter cables. 1 Adapter cable is required for 2 logic analyzer pods.

Logic Analyzer card requirements

The FS2343 FBDIMM Probe requires up to five logic analyzer cards depending on what

decode information is required by the user. There are several different configuration files

provided for the following applications. Note: all these configurations require the use of

16753/4/5/6 cards and Dual Sample Mode in the Logic Analyzer.

Configuration files

Probe Configuration

Configuration

File

Probe Connections to the

Analyzer

State Analysis requirement

SB and NB up to 533 Mb/s FB238_5

with 10 trigger bits

J10 (Master) Odd and

3 cards configured as one module for

speeds up to 533 Mb/s

Even, J13 Odd and Even,

J9 odd/even, J11 Odd and

Even, J12 Odd and Even

SB Only and 8 Trigger bits FB238_4

NB Only and 9 Trigger bits FB238_3

J9 Even, J10 (Master) Odd 3 cards configured as one module, one

and Even, J12 Even, J13

Odd and Even

dual sample state machine

J9 Odd and Even, J11

Odd and Even, J12 Odd

and Even, J15 (Master)

Odd

4 cards configured as one module, one

dual sample state machine

Full NB and SB with 5

Trigger bits

FB238_2

J9 Odd and Even, J10

(Master) Odd and Even,

J11 Odd and Even, J12

Odd, J13 Odd and Even

5 cards configured as one module, one

dual sample state machine

12 lane NB and SB with 10 FB238_1

Trigger bits

J9 Odd and Even, J10

(Master) Odd and Even,

J11 Odd and Even, J12

Even, J13 Odd and Even

5 cards configured as one module, one

dual sample state machine

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FBDIMM Paddle Board Connector layout

Software Requirements

For state analysis you must have version A.02.99.00 or later Agilent OS installed on the

1690x frame. Version A.02.99.00 contains the capability for SMBus control of the probe

through the 16753/4/5/6 or 16950 cards.

Setting up the 169xx Analyzer

A CD containing the 16900 software is included in the FS2343 package. The CD

contains a setup file that will automatically install the configuration files and protocol

decoder onto a PC containing the 16900 operating system or onto a 16900 analyzer

itself.

To install the software simply double click the FBDIMM.exe file on the CD containing the

16900 software. After accepting the license agreement the software should install within

a couple of minutes.

169xx Licensing

Once the software has been successfully installed you must license the software.

Please refer to the entitlement certificate for instructions on licensing the software. The

software can only be installed on one machine. If you need to install the software on

more than one machine you must contact the FuturePlus sales department to purchase

additional licenses.

Loading 169xx configuration files and General Purpose Probe feature

When the software has been licensed you should be ready to load a configuration file.

You can access the configuration files by clicking on the folder that was placed on the

desktop. When you click on the folder it should open up to display all the configuration

files to choose from. If you put your mouse cursor on the name of the file a description

will appear telling you what the setup consists of, once you choose the configuration file

that is appropriate for your configuration the 16900 operating system should execute it.

The protocol decoder automatically loads when the configuration file is loaded. If the

decoder does not load, you may load it by selecting Tools from the menu bar at the top

of the screen and select the decoder from the list.

After loading the configuration file of choice, the user should see both the Probe Control

application icon and the FBDIMM configuration and decoder icon in the Probes column

on the Overview page. Clicking on the Properties button of the FBDIMM Config icon will

display the General Purpose Probe Set as defined for this configuration.

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This is what the FS2343 probe user should use to guide them in connecting adapter

cables to analyzer card pods.

If the pod connections need to be changed, it can be done using the Edit Probes

feature, which is shown below. The Reference Designator field should be J9 through

J15 from the paddle card. The next step is to select on the right hand side of the screen

the 2 pods (Odd and Even) to connect to the analyzer cards. The drop box will show

available pod connections.

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Configuration File Labels

The configuration files provided with the probe software have a number of labels defined

that are useful in providing rapid identification of sampling position, DRAM, and Channel

Command activity in the state listing. They can also be used as triggers for the logic

analyzer. These labels include:

Sampling labels

There are 4 groups of Sampling labels which organize each bit sent for the probe to the

logic analyzer by the location of its valid data window and therefore the required

sampling position. This makes it more convenient to check the sampling set-up on a bit

by bit basis.

DRAM labels

BA_x - Bank Address for Command Slot A, B or C as defined in 3 bits. _x is used to

describe the Command slot.

ADD_x - 16 bit label describing the DRAM address bus

DS_x - 4 bits that direct the command to one of the eight possible DRAM DIMMs on the

FBD channel. This is how any of the three commands in a frame can be directed to any

DIMM in the FBD channel. These bits are used in some Channel Commands as well.

RS_x - Rank Select bit.

Channel Command labels

SB_CMDA_CRC – Southbound Command Slot A CRC 14 bit value.

FO_SB_CMDA_CRC – Failover Southbound Command Slot A CRC 10 bit value

EV_x - Event Debug bits, 8 bits, used in the Channel Command Debug: In band events.

PV_x – 8 bit Parameter Value that is associated with a debug event. This is used in the

Channel Command Debug: In band events.

DE_x - 8 bits, each bit refers to the CKE on each DIMM, DE0 would be for DIMM 0, DE1

would be for DIMM1, etc.

RT_x - Relative timing, 10 timing bits communicate relative time of transfer across

boundaries. Used in Channel Command Debug: Relative timing.

PH_x - Phase bit, 6 bit field communicates the encoded boundary transfer phase. Used

in Channel Command Debug: Relative timing.

EX_x - 17 bit field that communicates debug information, used with Channel Command

Debug: Exposed information.

BCST_x - single bit field used in all CKE control commands (commands such as DRAM

CKE per DIMM and DRAM CKE per Rank commands). A 1 value targets all DIMMs, if

the bit is 0 the command targets only one DIMM specified by the DS bits.

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TID – single Transaction identifier bit, used in Write Config. Register Channel

Command.

SD - Status delay, 2 bit field used in Sync command. Allows return status data to be

delayed by up to 3 frames.

EL0s - The EL0s bit indicates the channel should transition from the L0 state to the L0s

state for exactly 42 frames. The L0 state is the state when the channel is ready to

accept Channel and DRAM commands. The L0s state is an optional state used in

systems that use power management.

ERC - The ERC bit indicates that the channel should transition from L0 state to

recalibrate state for exactly 42 frames. Used in Sync frame.

IER – This bit indicates that commands and CRC errors be ignored by the AMB until

after the next reset. Used in Sync frame.

A10:2 - Address bus for Read or Write configuration Channel Commands.

Default Trigger

When a configuration file is loaded the default trigger will be set to trigger the analyzer

when the Mode bit is = 0 and Frame = 1. When mode and frame are set at these values

the AMB will be done with training sequences and the data that is on the channel is

properly aligned and can be decoded properly by the decoder.

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Symbols

Terms used in the FBDIMM protocol are defined under labels that are referred to as

symbols. Symbols can be used in defining triggers or for use in default store

qualifications. Below is a list of labels with the symbols defined. When using a label for

which symbols are defined, change the hex property to sym to display the symbol

representation. A, B and C below refer to the command slot A, B, C respectively in the

southbound frame.

DRAM commands - A, B, C labels

Symbol

Symbol Value

reserved

Enter Power down

Exit Self Refresh

Enter Self Refresh

Auto Refresh

Precharge Single

Precharge All

READ

00 100x

00 1010

00 1011

00 1100

00 1101

00 1110

00 1111

01 0xxx

01 1xxx

1x xxxx

WRITE

ACTIVATE

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Channel Commands - A, B, C labels

Symbol

Symbol Value

Channel NOP

Sync

0000 000x

00000 001x

0000 010x

0000 011x

0000 100x

0000 101x

0000 110x

0000 111x

0001 0xxx

0001 10xx

0001 110x

0001 1110

0001 1111

Soft Channel Reset

reserved

Read Config Reg

Write Config Reg

DRAM CKE per Rank

DRAM CKE per DIMM

reserved2

reserved3

Debug Exposed

Debug Relative

Debug In-Band

Frame Type label

Symbol

Symbol Value

command

Reserved

Command + Wdata

The DRAM commands A, B, C labels are made up of bits 20, 19, 18, 12, 11, 10

respectively from each command slot.

Channel Commands A, B, C labels are made up of bits 20-13 respectively from each

command slot.

Frame Type label consists of bits 25, 24 respectively.

The picture below shows an example of symbols being used for a trigger.

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Example using symbol “Activate” in a trigger

Preferences

The Preferences option is used to set the protocol decoder for failover mode. If the

Southbound or Northbound is in failover mode, the preferences must be set accordingly.

If the Northbound side is in failover the user must select which lane has failed in order

for the decoder to decode the bus properly. The default settings for both the

Northbound and Southbound are set to None, meaning they are both running at full

potential. To access the preferences select the Tools menu after a configuration file has

been loaded successfully, then select FBDIMM Protocol Decoder -1/Preferences.

Below is a picture of the screen when selecting preferences.

Another preference option is Raw Mode. When selected the output on the Northbound

and Southbound labels will be shown in a binary format instead of the regular decoded

output. All twelve transfers and all lanes will be shown in each state.

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Below is a picture of the preference options

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SM (SMBus) Control

Paddle card Settings

The FS2343 probe is designed so that AMB/LAI device control can be either from the

16900 logic analyzer and the Probe Control application software resident there, or from

another FS2343 probe (slave mode).

This feature is controlled by means of a 6 position switch on the probe paddle card near

the logic analyzer connections.

The factory configuration is for 16900 control of the probe. The settings on the switch

are dependent on the configuration file used. The following picture shows the jumper

and switch configurations on the paddle card.

Config file

FB238_1

FB238_2

FB238_3

FB238_4

SW# ON, all others off

1 and 4

3 and 6

1 and 4

Probe Settings

There is a 4 position jumper location at U8 on the top side of the FS2343 Interposer

probe. There are jumpers that can be placed over each of the 4 set of pins. They have

the following function:

Jumper

Function

1 - 5

2 - 6

3 - 7

Probe ID bit 0 Address 20

Probe ID bit 1 Address 21

Jumper removed = AMB SMBus

connected to analyzer at powerup.

Factory config – installed

Jumper installed = AMB SMBus

connected to motherboard at power

up.

4 - 8

Unused

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Event Bus Cabling

The Event Bus bits, Evbus[0:3], from other probes can be daisy chained across multiple

probes in order to provide cross probe control of other probes. There are 2 EV cable

connectors on each probe and both connectors are wired in parallel so that either can

be used. Additionally, the probe has termination sensing circuitry so that the Evbus[0:3]

signals are properly terminated on the probe if the cables are not used.

The cables are connected at either J9 or J10 on the board with their wires exiting the

board from the top. LED D1 will light if the cables are attached backwards.

Probe Control Application

The FS2343 Interposer probe is controlled from a Probe Add-in, which has to be

installed on the 16900 workspace as it communicates through the logic analyzer cards

through an internal SM (SMBus) port which is connected to the probe by means of the

adapter cable connection.

Loading the Probe Control Software

Load the CD provided with the probe into the 16900 frame and locate the file FBD Probe

Control.exe. Double-click this file and it will install and be available in the Agilent Logic

analyzer software under the Setup tab as the FBDIMM Probe.

Using the Probe Control Software

Always use the “Apply” button before changing windows or using the “OK” button. It is

important to note that the probe control software sets up registers within the AMB. It is

still necessary to set up parameters in the configuration file for triggers, storing, filtering

etc. Setting up the AMB through the probe control software generates signals going to

the logic analyzer, the logic analyzer can then use these signals to qualify, trigger or

filter events or data of interest.

Please see the following pages for details for the different register settings within the

AMB.

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Setup

The Set-up screen provides control over basic probe use.

•

The probe Configuration setup button allows the user to select when they want

to set up the parameters within the AMB. The choices are always after link

training, before link training only when needed, or always before link training. If

all you are interested in is data after link training then leave always after link

training selected.

•

The probe can operate in a mode where lane data is only provided after L0s

where the lane data is aligned to the clock, or in “raw” mode. Raw mode just

passes data through to the logic analyzer, the lane data may not be aligned to

the clocks at this point.

•

The “Restore” button resets ALL Probe settings to their factory configuration.

“Find Probe” pings the probe/AMB chip.

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SB Commands

This allows Match or Mask control over any 3 Command patterns entered by the user in

either hex or binary format. Furthermore, each of 3 patterns can be searched for in

either Command Slot A, B or C, or all three patterns in all 3 Command Slots.

The mask and match feature allows the user to set 3 different command patterns along

with data to mask out. The user can then specify 3 events, which allows a user to

specify a frame containing 3 command values to be passed to the logic analyzer. When

the frame occurs that satisfy the events specified, the data will be passed to the

analyzer.

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Store Qualification

This section controls the operation of the Qual Flag, Qual Stop Delay, and Qual Period

Delay. It allows the user to select from 32 different events for the definition of Qual Start

and Qual Stop. These settings control the state of the Store_qual flag for non-filtered

frames. The Store_qual flag in the configuration file can then be used for trigger events,

default storing, etc. The Store_qual flag is controlled by this screen, the user may

specify when to activate the Store_qual flag, specify an event to assert the Store_qual

flag, and when to deassert the flag.

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Trigger Events

This capability allows the Probe user to define each of the AMB’s logic analyzer Triggers

[0:10] to be set to one of 32 different event conditions seen by the AMB. It is important to

note that not all LAITrig[0:10] signals are available to the logic analyzer. This is

dependent on the configuration file loaded and the pod connections made to the logic

analyzer. Each trigger bit has a corresponding label in the configuration file that can be

used when specifying a trigger for the logic analyzer.

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Event Bus

This feature controls the operation of the Event Bus signals EV[0:3] which can be used

for communication and triggering between probes in an FBDIMM Channel.

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State Analysis Operation

For proper state analysis the user must choose the correct configuration file to load

depending on what type of analysis is desired, such as analyzing both Northbound and

Southbound activity or just one direction. The list of configuration files provided is on

page 12.

Load the appropriate configuration file and use the General Purpose probe feature for

proper cable attachment to the probe, for more information on the General Purpose

probe feature please see the section titled “Loading 169xx configuration files and

General Purpose Probe feature”. When the configuration file loads the decoder will

automatically load providing the software has been properly licensed.

For proper protocol decoder performance you must insure the preferences are set

properly. Once the configuration file is loaded go to Tools, select FBDIMM Protocol

Decoder -1 and select Preferences. Set the failover modes for the Southbound and or

Northbound if necessary. The default settings are set to none. When you choose a

Northbound failover mode you must select which lane(s) has failed as well.

Once the configuration file has been loaded and all cables are attached to the probe, the

next step is to configure the probe. Please refer to the section of the manual titled

“Using the Probe Control Application”. The probe control application allows the user to

set different parameters of the probe to allow certain data to be passed through to the

analyzer.

Setting Sample Positions

In order to insure that the logic analyzer properly measures the output of the probe, the

sample positions for each label need to be set properly. There are 4 “Sample Data”

labels defined in each configuration file that group each North and Southbound data

signal by its required sample position.

It is recommended that Eyefinder is run on the logic analyzer while the target system is

generating consistent traffic on the North and Southbound lanes. The sample positions

in the config fields have been preset based on measurements in a test bed at 533MT/s

data rates. They may need to be adjusted based on your target system. The following

image shows the 4 “Sample Data” labels after an Eyefinder has been run. If there are

clear eyes for each label, the user can drag all the blue sample position bars to the far

left to aggregate them and then drag the single bar back to the window where it was

originally located. If the sample positions are not set correctly then the data shown on

the analyzer will not be correct.

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After the probe has been configured, the trigger for the analyzer must be set. To set the

trigger for the analyzer go to the setup menu bar and select “Advanced Trigger”. On the

next window that pops up specify what you want the analyzer to trigger on. After you set

the trigger, depress the run button (green arrow at the top of the screen on the overview,

listing or waveform windows), the analyzer should be waiting for a trigger to occur at this

point. Start a test on the target to generate traffic, when the trigger condition is satisfied

the analyzer will continue capturing data until the memory is full or the user has

depressed the stop button.

When the analyzer has stopped the protocol decoder will automatically decode the data

on the bus, the decoded data will appear under the Northbound and Southbound labels

on the listing screen.

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State Display

Offline Analysis

Offline analysis allows a user to be able to analyze a trace offline at a PC so it frees up

the analyzer for another person to use the analyzer to capture data.

If you have already used the FBDIMM Protocol Decoder license that was included with

your package on a 1680/90/900 analyzer and would like to have the offline analysis

feature on a PC you may buy additional licenses, please contact FuturePlus Sales

department.

In order to view decoded data offline, after installing the 1680/90/900 operating system

on a PC, you must install the FuturePlus software. Please follow the installation

instructions for “Setting up the 16900 analyzer”. Once the FuturePlus software has

been installed and licensed follow these steps to import the data and view it.

From the desktop, double click on the Agilent logic analyzer icon. When the application

comes up there will be a series of questions, answer the first question asking which

startup option to use, select Continue Offline. On the analyzer type question, select

cancel. When the application comes all the way up you should have a blank screen with

a menu bar and tool bar at the top.

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For data from a 16900 analyzer, open the .ala file using the File, Open menu selections

and browse to the desired .ala file.

After clicking “next” you must browse for the fast binary data file you want to import.

Once you have located the file and clicked start import, the data should appear in the

listing.

After the data has been imported you must load the protocol decoder before you will see

any decoding. To load the decoder select Tools from the menu bar, when the drop

down menu appears select Inverse Assembler, then choose the name of the decoder for

your particular product. The figure below is a general picture; please choose the

appropriate decoder for the trace you are working with.

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After the decoder has loaded, select Preferences from the overview screen and set the

preferences to their correct value in order to decode the trace properly.

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Appendix

FS2343 Paddle Signal to Logic Analyzer Connector and Channel Mapping

The following table shows how the FS2343 Probe connects FBDIMM AMB signals to the

logic analyzer pods and channels through the 100 pin Samtec connectors. Note that the

configuration files described earlier use various combinations of these Pod connections.

The nomenclature is NB/SB for North or Southbound, Lx for Lane number, Bx for bit in

during the rising edge of Anly_clkp, and _xx is the bit for the Dual sampled (second)

point which is on the falling edge of Anly_clkp.

J9 - Pods 1(Odd) and 2 (Even)

Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

Odd D0

Ground

Odd D1

Ground

Odd D2

Ground

Odd D3

Ground

Odd D4

Ground

Odd D5

Ground

Odd D6

Ground

Odd D7

Ground

Odd D8

Ground

Even D0

Ground

Even D1

Ground

Even D2

Ground

Even D3

Ground

Even D4

Ground

Even D5

Ground

Even D6

Ground

Even D7

Ground

Even D8

Ground

NB_L1_B0_6

NB_L1_B4_10

NB_L0_B5_11

NB_L0_B3_9

NB_L1_B1_7

NB_L1_B5_11

NB_L0_B2_8

NB_L0_B1_7

NB_L2_B4_10

MODE

NB_L1_B2_8

FRAME

NB_L0_B4_10

NB_L2_B1_7

NB_L2_B0_6

NB_L1_B3_9

NB_L3_B2_8

NB_L3_B0_6

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Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

NB_L4_B5_11

NB_L3_B5_11

NB_L6_B1_7

NB_L4_B2_8

NB_L3_B4_10

NB_L4_B1_7

NB_L4_B0_6

Odd D9

Ground

Odd D10

Ground

Odd 11

Ground

Odd D12

Ground

Odd D13

Ground

Odd D14

Ground

Odd D15

Ground

Even D9

Ground

Even D10

Ground

Even D11

Ground

Even D12

Ground

Even D13

Ground

Even D14

Ground

Even D15

Ground

NB_L7_B4_10

NB_L4_B4_10

NB_L7_B0_6

STORE_QUAL

NB_L3_B1_7

NB_L0_B0_6

NB_L2_B5_11

Ground

Odd D16P/Odd

CLK

Even DP16P/Even

CLK

NB_L2_B3_9

GND

NB_L2_B2_8

GND

Ground

Odd DP16N/Odd

CLKN

Even DP16N/Even

CLKN

Ground

100

Ground

Odd External Ref

Ground

Even External Ref

Ground

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J11 Pods 1(Odd) and 2 (Even)

Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

SDA

SCL

Ground

Odd D0

Ground

Odd D1

Ground

Odd D2

Ground

Odd D3

Ground

Odd D4

Ground

Odd D5

Ground

Odd D6

Ground

Odd D7

Ground

Odd D8

Ground

Odd D9

Ground

Odd D10

Ground

Odd 11

Ground

Odd D12

Ground

Even D0

Ground

Even D1

Ground

Even D2

Ground

Even D3

Ground

Even D4

Ground

Even D5

Ground

Even D6

Ground

Even D7

Ground

Even D8

Ground

Even D9

Ground

Even D10

Ground

Even D11

Ground

Even D12

Ground

NB_L8_B5_11

NB_L10_B1_7

NB_L10_B2_8

NB_L5_B2_8

NB_L6_B3_9

NB_L11_B3_9

NB_L5_B0_6

NB_L11_B4_10

NB_L5_B5_11

NB_L4_B3_9

NB_L6_B5_11

NB_L6_B0_6

NB_L8_B2_8

NB_L10_B5_11

NB_L8_B1_7

NB_L10_B3_9

NB_L6_B2_8

NB_L8_B4_10

NB_L8_B3_9

NB_L11_B0_6

NB_L3_B3_9

NB_L11_B2_8

NB_L5_B3_9

NB_L5_B1_7

NB_L9_B2_8

NB_L9_B5_11

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Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

NB_L11_B1_7

NB_L7_B5_11

NB_L8_B0_6

Odd D13

Ground

Odd D14

Ground

Odd D15

Ground

Even D13

Ground

Even D14

Ground

Even D15

Ground

NB_L9_B3_9

NB_L5_B4_10

NB_L10_B4_10

Ground

Odd D16P/Odd

CLK

Even DP16P/Even

CLK

NB_L11_B5_11

GND

NB_L9_B0_6

GND

Ground

Odd DP16N/Odd

CLKN

Even DP16N/Even

CLKN

Ground

100

Ground

Odd External Ref

Ground

Even External Ref

Ground

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J15 Pod 1(Odd)

Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

Odd D0

Ground

Odd D1

Ground

Odd D2

Ground

Odd D3

Ground

Odd D4

Ground

Odd D5

Ground

Odd D6

Ground

Odd D7

Ground

Odd D8

Ground

Odd D9

Ground

Odd D10

Ground

Odd 11

Ground

Odd D12

Ground

Odd D13

Ground

Even D0

Ground

Even D1

Ground

Even D2

Ground

Even D3

Ground

Even D4

Ground

Even D5

Ground

Even D6

Ground

Even D7

Ground

Even D8

Ground

Even D9

Ground

Even D10

Ground

Even D11

Ground

Even D12

Ground

Even D13

Ground

NB_L12_B1_7

NB_L7_B3_9

NB_L7_B1_7

NB_L7_B2_8

NB_L6_B4_10

NB_L9_B1_7

NB_L12_B2_8

NB_L12_B3_9

NB_L12_B5_11

NB_L12_B4_10

NB_L12_B0_6

NB_L10_B0_6

NB_L9_B4_10

TRIGGER0

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Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

TRIGGER1

Odd D14

Ground

Odd D15

Ground

Even D14

Ground

Even D15

Ground

TRIGGER2

Ground

Odd D16P/Odd

CLK

Even DP16P/Even

CLK

Anly_clkp

Anly_clkn

Ground

Odd DP16N/Odd

CLKN

Even DP16N/Even

CLKN

Ground

100

Ground

Odd External Ref

Ground

Even External Ref

Ground

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J12 Pods 1(Odd) and 2 (Even)

Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

Odd D0

Ground

Odd D1

Ground

Odd D2

Ground

Odd D3

Ground

Odd D4

Ground

Odd D5

Ground

Odd D6

Ground

Odd D7

Ground

Odd D8

Ground

Odd D9

Ground

Odd D10

Ground

Odd 11

Ground

Odd D12

Ground

Odd D13

Ground

Even D0

Ground

Even D1

Ground

Even D2

Ground

Even D3

Ground

Even D4

Ground

Even D5

Ground

Even D6

Ground

Even D7

Ground

Even D8

Ground

Even D9

Ground

Even D10

Ground

Even D11

Ground

Even D12

Ground

Even D13

NB_L13_B2_8

NB_L7_B3_9

NB_L7_B1_7

NB_L7_B2_8

NB_L6_B4_10

NB_L9_B1_7

NB_L13_B4_10

NB_L13_B3_9

NB_L13_B0_6

NB_L13_B1_7

NB_L13_B5_11

NB_L10_B0_6

NB_L9_B4_10

TRIGGER0

TRIGGER7

NB_L7_B3_9

NB_L7_B1_7

NB_L7_B2_8

NB_L6_B4_10

NB_L9_B1_7

TRIGGER8

TRIGGER9

TRIGGER10

TRIGGER6

TRIGGER5

NB_L10_B0_6

NB_L9_B4_10

TRIGGER0

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Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

Odd D14

Ground

Odd D15

Ground

Even D14

Ground

Even D15

Ground

TRIGGER1

TRIGGER2

TRIGGER1

TRIGGER2

Ground

Odd D16P/Odd

CLK

Even DP16P/Even

CLK

TRIGGER4

GND

Anly_clkp

Anly_clkn

Ground

Odd DP16N/Odd

CLKN

Even DP16N/Even

CLKN

Ground

100

Ground

Odd External Ref

Ground

Even External Ref

Ground

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J10 - Pods 1(Odd) and 2 (Even)

Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

SDA

SCL

Ground

Odd D0

Ground

Odd D1

Ground

Odd D2

Ground

Odd D3

Ground

Odd D4

Ground

Odd D5

Ground

Odd D6

Ground

Odd D7

Ground

Odd D8

Ground

Odd D9

Ground

Odd D10

Ground

Odd 11

Ground

Odd D12

Ground

Odd D13

Ground

Even D0

Ground

Even D1

Ground

Even D2

Ground

Even D3

Ground

Even D4

Ground

Even D5

Ground

Even D6

Ground

Even D7

Ground

Even D8

Ground

Even D9

Ground

Even D10

Ground

Even D11

Ground

Even D12

Ground

Even D13

SB_L7_B3_9

SB_L8_B3_9

SB_L7_B4_10

SB_L8_B2_8

SB_L8_B4_10

SB_L9_B3_9

SB_L7_B2_8

SB_L9_B1_7

SB_L5_B4_10

SB_L7_B1_7

SB_L5_B2_8

SB_L2_B0_6

SB_L0_B0_6

SB_L1_B1_7

SB_L7_B0_6

SB_L9_B4_10

SB_L9_B5_11

SB_L8_B1_7

SB_L9_B0_6

SB_L9_B2_8

SB_L8_B0_6

SB_L8_B5_11

SB_L7_B5_11

SB_L2_B2_8

SB_L3_B4_10

SB_L2_B1_7

SB_L2_B3_9

SB_L6_B1_7

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Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

Odd D14

Ground

Odd D15

Ground

Even D14

Ground

Even D15

Ground

SB_L6_B2_8

SB_L6_B4_10

SB_L0_B3_9

SB_L0_B1_7

Ground

Odd D16P/Odd

CLK

Even DP16P/Even

CLK

Anly_clk1p

Anly_clk1n

SB_L0_B2_8

Ground

Odd DP16N/Odd

CLKN

Even DP16N/Even

CLKN

Ground

100

Ground

Odd External Ref

Ground

Even External Ref

Ground

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J13 Pods 1(Odd) and 2 (Even)

Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

Ground

Odd D0

Ground

Odd D1

Ground

Odd D2

Ground

Odd D3

Ground

Odd D4

Ground

Odd D5

Ground

Odd D6

Ground

Odd D7

Ground

Odd D8

Ground

Odd D9

Ground

Odd D10

Ground

Odd 11

Ground

Odd D12

Ground

Even D0

Ground

Even D1

Ground

Even D2

Ground

Even D3

Ground

Even D4

Ground

Even D5

Ground

Even D6

Ground

Even D7

Ground

Even D8

Ground

Even D9

Ground

Even D10

Ground

Even D11

Ground

Even D12

Ground

NB_L12_B1_7

NB_L12_B2_8

NB_L12_B3_9

NB_L12_B5_11

NB_L12_B4_10

NB_L12_B0_6

SB_L5_B3_9

SB_L1_B3_9

SB_L1_B5_11

SB_L4_B1_7

SB_L3_B5_11

SB_L3_B2_8

SB_L0_B5_11

SB_L6_B3_9

SB_L4_B3_9

SB_L4_B5_11

SB_L4_B2_8

SB_L1_B4_10

SB_L1_B0_6

SB_L2_B5_11

SB_L0_B4_10

SB_L4_B4_10

SB_L1_B2_8

SB_L2_B4_10

SB_L5_B0_6

SB_L3_B3_9

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Signal

name/Logical

Signal Name

Signal

Name/Logical

Signal name

Logic Analyzer

channel number

SAMTEC

Pin number

SAMTEC

Pin number

Logic Analyzer

channel number

SB_L4_B0_6

SB_L3_B0_6

SB_L3_B1_7

Odd D13

Ground

Odd D14

Ground

Odd D15

Ground

Even D13

Ground

Even D14

Ground

Even D15

Ground

SB_L6_B0_6

SB_L5_B5_11

SB_L6_B5_11

Ground

Odd D16P/Odd

CLK

Even DP16P/Even

CLK

TRIGGER3

GND

SB_L5_B1_7

Ground

Odd DP16N/Odd

CLKN

Even DP16N/Even

CLKN

Ground

100

Ground

Odd External Ref

Ground

Even External Ref

Ground

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General Information

This chapter provides additional reference information including the characteristics and

signal connections for the FS2343 FBDIMM Interposer Probe. The following operating

characteristics are not specifications, but are typical operating characteristics.

Probe Connection

240 pin gold finger card edge connection at target (bottom) end of probe and card edge

socket at the top edge of the probe both conforming to JEDEC spec MO-224.

Protocol supported

The FS2343 is designed to probe a DDR2 Fully Buffered DIMM system. Contact

FuturePlus Systems for more detailed information.

Logic Analyzer required

169xx or PC running Agilent technologies 1680/90/900 software version 3.00.00

software, using 16753 or better, 1695x or better cards.

Logic Analyzer Adapter Cables required

Logic Analyzer

card

Termination

Adapter

Number Required

16760,

16753/4/5/6,

16950

E5378A

Service requirements

If a failure is suspected in the FS2343 Probe contact the factory or your FuturePlus

Systems authorized distributor.

The repair strategy for the probe is for the product to be returned to the factory upon

factory approval.

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