SmartSwitch 9000
9A426-02
User’s Guide
9031918-03
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Notice
Notice
Cabletron Systems reserves the right to make changes in specifications and other information
contained in this document without prior notice. The reader should in all cases consult Cabletron
Systems to determine whether any such changes have been made.
The hardware, firmware, or software described in this manual is subject to change without notice.
IN NO EVENT SHALL CABLETRON SYSTEMS BE LIABLE FOR ANY INCIDENTAL, INDIRECT,
SPECIAL, OR CONSEQUENTIAL DAMAGES WHATSOEVER (INCLUDING BUT NOT LIMITED
TO LOST PROFITS) ARISING OUT OF OR RELATED TO THIS MANUAL OR THE INFORMATION
CONTAINED IN IT, EVEN IF CABLETRON SYSTEMS HAS BEEN ADVISED OF, KNOWN, OR
SHOULD HAVE KNOWN, THE POSSIBILITY OF SUCH DAMAGES.
© Copyright April 1998 by:
Cabletron Systems, Inc.
35 Industrial Way
Rochester, NH 03867-5005
All Rights Reserved
Printed in the United States of America
Order Number: 9031918-03
LANVIEW is a registered trademark, and SmartSwitch is a trademark of Cabletron Systems, Inc.
CompuServe is a registered trademark of CompuServe, Inc.
i960 microprocessor is a registered trademark of Intel Corp.
Ethernet is a trademark of Xerox Corporation.
i
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Notice
FCC Notice
This device complies with Part 15 of the FCC rules. Operation is subject to the following two
conditions: (1) this device may not cause harmful interference, and (2) this device must accept any
interference received, including interference that may cause undesired operation.
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable
protection against harmful interference when the equipment is operated in a commercial environment.
This equipment uses, generates, and can radiate radio frequency energy and if not installed in
accordance with the operator’s manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause interference in which case the user
will be required to correct the interference at his own expense.
WARNING: Changes or modifications made to this device which are not expressly approved by the
party responsible for compliance could void the user’s authority to operate the equipment.
VCCI Notice
This equipment is in the 1st Class Category (information equipment to be used in commercial and/ or
industrial areas) and conforms to the standards set by the Voluntary Control Council for Interference
by Information Technology Equipment (VCCI) aimed at preventing radio interference in commercial
and/ or industrial areas.
Consequently, when used in a residential area or in an adjacent area thereto, radio interference may be
caused to radios and TV receivers, etc.
Read the instructions for correct handling.
DOC Notice
This digital apparatus does not exceed the Class A limits for radio noise emissions from digital
apparatus set out in the Radio Interference Regulations of the Canadian Department of
Communications.
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites applicables
aux appareils numériques de la class A prescrites dans le Règlement sur le brouillage radioélectrique
édicté par le ministère des Communications du Canada.
ii
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Notice
DECLARATION OF CONFORMITY
Application of Council Directive(s):
89/336/EEC
73/23/EEC
Manufacturer’s Name:
Manufacturer’s Address:
Cabletron Systems, Inc.
35 Industrial Way
PO Box 5005
Rochester, NH 03867
European Representative Name:
European Representative Address:
Mr. J. Solari
Cabletron Systems Limited
Nexus House, Newbury Business Park
London Road, Newbury
Berkshire RG13 2PZ, England
Conformance to Directive(s)/Product Standards:
Equipment Type/Environment:
EC Directive 89/336/EEC
EC Directive 73/23/EEC
EN 55022
EN 50082-1
EN 60950
Networking Equipment, for use in a
Commercial or Light
Industrial Environment.
We the undersigned, hereby declare, under our sole responsibility, that the equipment packaged with
this notice conforms to the above directives.
Manufacturer
Legal Representative in Europe
Mr. Ronald Fotino
____________________________________________________
Mr. J. Solari
______________________________________________________
Full Name
Full Name
Principal Compliance Engineer
____________________________________________________
Managing Director - E.M.E.A.
______________________________________________________
Title
Title
Rochester, NH, USA
____________________________________________________
Newbury, Berkshire, England
______________________________________________________
Location
Location
iii
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Notice
iv
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Contents
Chapter 1
Chapter 2
Related Manuals............................................................................................................ 1-4
Getting Help .................................................................................................................. 1-4
Preparing and Installing
The Module’s Physical Layout.................................................................................... 2-1
SRAM SIMMs......................................................................................................... 2-4
APIMs...................................................................................................................... 2-4
DIP Switch............................................................................................................. 2-10
Chapter 3
System Management Buses ......................................................................................... 3-3
SMB-1 Bus ............................................................................................................... 3-3
SMB-10 Bus ............................................................................................................. 3-4
INB Network Interface Block ...................................................................................... 3-4
FDDI Network Interface Block.................................................................................... 3-5
ATM Network Interface Block .................................................................................... 3-5
SecureFast Virtual Networking................................................................................... 3-5
i960 Core......................................................................................................................... 3-6
v
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Contents
Chapter 4
Chapter 5
Technical Specifications................................................................................................5-1
CPU ..........................................................................................................................5-1
Memory ...................................................................................................................5-1
Address Table Size .................................................................................................5-1
Power .......................................................................................................................5-1
Network Interfaces ................................................................................................5-1
Standards.................................................................................................................5-2
Safety...............................................................................................................................5-2
Service .............................................................................................................................5-2
Physical...........................................................................................................................5-3
Dimensions .............................................................................................................5-3
Weight ......................................................................................................................5-3
Environment ...........................................................................................................5-3
vi
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Chapter 1
Introduction
The 9A426-02 ATM Module is a hardware-based switching module that supports
multiple interfaces simultaneously. The module’s interconnecting interfaces
include:
•
Up to two front panel ATM interfaces via user-installed ATM Port Interface
Modules (APIMs)
•
•
A fixed interface to the SmartSwitch 9000’s Internal Network Bus (INB)
A user-configurable interface to the SmartSwitch 9000’s Flexible Network Bus
(FNB-1 or FNB-2)
Each data packet, regardless of the interface in which the packet enters the
module (ATM, FNB, or INB), is initially converted into a common format known
as a canonical frame. Each canonical frame’s header section contains source and
destination information. All canonical frames are forwarded to the module’s
group of SmartSwitch Application Specific Integrated Circuits (ASICs)
collectively known as the SmartSwitch Core.
The SmartSwitch Core can process data in two modes: as a traditional switch or as
a Secure Fast Switch (SFS). When operating as a traditional switch, the Fast Packet
Switch makes filtering/ forwarding decisions based on Destination Address, with
standard IEEE 802.1d learning. When operating in SFS mode, all
filtering/ forwarding decisions are based on a Destination Address-Source
Address pair, and the associated receive/ transmit port.
Canonical frames that enter the 9A426-02 Module via the backplane interface
(FNB or INB) and are destined for the module’s front panel interface(s), are
converted by the module’s ATM Network Interface Block (ANIB) into 53 byte
ATM cells. The ANIB uses a separate set of ASICs to perform hardware-based
packet to cell conversions. This conversion process is an integral part of the
module’s ability to provide high-performance interconnections between legacy
LANs and ATM attached networks.
1-1
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Introduction
Conversely, canonical frames destined for the FNB bus on the SmartSwitch 9000
backplane are converted into FDDI packets via the 9A426-02 Module’s FDDI
Network Interface Block (FNIB), and then forwarded onto the FNB.
Canonical frames destined for the INB bus on the SmartSwitch 9000 backplane are
converted into fixed length data packets via the 9A426-02 Module’s INB Network
Interface Block (INB NIB), and then forwarded onto the INB.
Features
Processor
The 9A426-02 Module is equipped with an advanced Intel i960 microprocessor.
This microprocessor provides a platform for all management functions within a
scalable RISC-based architecture.
SmartSwitch Core
The 9A426-02 Module incorporates the SmartSwitch Core, a collection of custom
Application Specific Integrated Circuits (ASICs) designed specifically for high
speed switching. The SmartSwitch ASIC bus is 64 bits wide with a bandwidth of
640 Mbps. Since all frame translation, address lookups, and forwarding decisions
are performed in hardware, the 9A426-02 Module can obtain a throughput
performance of greater than 750K pps.
Management
The 9A426-02 Module has one full implementation of SMT (Version 7.3) and
SNMP for local and remote management. Local management is provided through
the RS-232 Com ports on the SmartSwitch 9000 Environmental Module using a
standard VT-220™ terminal or emulator, or via telnet. Remote management is
achieved through Cabletron’s SPECTRUM or any SNMP compliant management
tool. Switching statistics of the selected FNB interface include frames filtered,
frames forwarded, and all Spanning Tree Protocol parameters.
Connectivity
The 9A426-02 Module has two front panel ATM interfaces. An ATM Port Interface
Module (APIM) can be installed in one (or both) interface(s). The 9A426-02
Module also has one interface to the INB-2 backplane, and one user-configurable
interface to the SmartSwitch 9000 FNB backplane (either FNB-1 or FNB-2, or
neither).
Management Information Base (MIB) Support
The 9A426-02 Module provides MIB support including:
•
•
•
•
IETF AToM MIB
IETF FDDI MIB
IETF Bridge MIB
A host of Cabletron Enterprise MIBs
1-2
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Introduction
LANVIEW LEDs
The 9A426-02 Module uses LANVIEW – Cabletron Systems built-in visual
diagnostic and status monitoring system. With LANVIEW LEDs, you can quickly
identify the device, port, and physical layer status at a glance.
ATM
9A426-02
SMB
CPU
INB
FNB
A
T
M
1
A
T
M
2
Figure 1-1. The 9A426-02 Module
For a complete list of supported MIBs, refer to the release notes provided in the
9A426-02 Module package.
NOTE
1-3
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Introduction
Related Manuals
The manuals listed below should be used to supplement the procedures and
technical data contained in this manual.
SmartSwitch 9000 Installation Guide
SmartSwitch 9000 9C300-1 Environmental Module User’s Guide
SmartSwitch 9000 9C214-1 AC Power Supply User’s Guide
INB Terminator Modules Installation Guide
SmartSwitch 9000 Local Management User’s Guide
SmartSwitch 9000 9A426-01/ 9A426-02 Module-Specific Local Management
Appendix
Getting Help
For additional support related to this device or document, contact the Cabletron Systems Global Call
Center:
Phone
(603) 332-9400
Internet mail
FTP
ctron.com (134.141.197.25)
anonymous
Login
Password
your email address
BBS
(603) 335-3358
Modem setting
8N1: 8 data bits, No parity, 1 stop bit
For additional information about Cabletron Systems or its products, visit the
For technical support, select Service and Support.
To send comments or suggestions concerning this document, contact the
Cabletron Systems Technical Writing Department via the following
Make sure to include the document Part Number in the email message.
Before calling the Cabletron Systems Global Call Center, have the following information ready:
•
•
•
Your Cabletron Systems service contract number
A description of the failure
A description of any action(s) already taken to resolve the problem (e.g., changing mode switches,
rebooting the unit, etc.)
•
•
•
•
•
The serial and revision numbers of all involved Cabletron Systems products in the network
A description of your network environment (layout, cable type, etc.)
Network load and frame size at the time of trouble (if known)
The device history (i.e., have you returned the device before, is this a recurring problem, etc.)
Any previous Return Material Authorization (RMA) numbers
1-4
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Chapter 2
Preparing and Installing
the 9A426-02 Module
This chapter describes the physical layout of the 9A426-02 Module and explains
how to prepare and install the module in a SmartSwitch 9000 chassis.
Never expose the module’s components to Electrostatic Discharge: Make sure you
have attached the module’s disposable grounding strap to your wrist and always
place the module on a non-conductive surface.
WARNING
Unpacking the Module
1. Carefully remove the module from the shipping box. (Save the box and
packing materials in the event the module must be reshipped.)
2. Remove the module from the plastic bag. Observe all precautions to prevent
damage from Electrostatic Discharge (ESD).
3. Carefully examine the module, checking for damage. If any damage exists,
DO NOT install the module. Contact Cabletron Systems Technical Support
immediately.
The Module’s Physical Layout
The 9A426-02 Module has two major circuit boards on which components are
motherboard. The module’s second-level circuit board is known as the
daughterboard. The removable daughterboard attaches to the motherboard’s
connectors and standoffs. Both the motherboard and the daughterboard contain
components that are accessible to the user.
2-1
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Preparing and Installing the 9A426-02 Module
daughterboard
motherboard
Figure 2-1. The 9A426-02 Module’s two major circuit boards
User-Accessible Components on the Module’s
Motherboard
The user accessible components on the module’s motherboard include two Look-
Up Engines, up to two user-installed ATM Memory Upgrade SRAM SIMMs, and
up to two user-installed ATM Port Interface Modules (APIMs). See Figure 2-2.
The User Accessible Components on the motherboard of a 9A426-02 Module are
positioned in close proximity to one another. Therefore, to attain easier access for
NOTE
removing a desired component, you may opt to remove an additional component.
For example, you may remove an SRAM SIMM to gain better access for
removing a Look-Up Engine.
2-2
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Preparing and Installing the 9A426-02 Module
APIM
SRAM
SIMM
Look-Up
Engine
APIM
Look-Up
Engine
SRAM
SIMM
Figure 2-2. User Accessible Components on the 9A426-02 Module’s motherboard
Look-Up Engines
The 9A426-02 Module is shipped with two look-up engines (one for each front
panel port). These components are located at the front section of the module as
Pairings.
To increase the capacity of a front panel portÕs Look-Up Engine, install the Look-
Up Engine Upgrade Kit (LUE-UGK). To increase the capacity of the moduleÕs
second front panel port, install an additional upgrade kit. Installation instructions
are included in each upgrade kit.
2-3
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Preparing and Installing the 9A426-02 Module
SRAM SIMMs
Each front panel port on the 9A426-02 Module is equipped with two megabytes of
Static Random Access Memory(SRAM).
To increase the SRAM of a front panel port, install the SRAM SIMM from the ATM
Memory Upgrade Kit (ATM-MEM-UGK) in the port’s corresponding SIMM
socket. To increase the SRAM of the module’s second front panel port, install an
additional SRAM SIMM in the port’s corresponding SIMM socket.
The SRAM SIMMs fit into the SIMM sockets located at the front section of the
upgrade kit.
APIMs
The preparation of the 9A426-02 Module includes the installation of at least one
ATM Port Interface Module (APIM) in one of the module’s front panel ports (if
desired, you can install two APIMs). The module is shipped with no installed
APIMs. You customize the module to your particular need by selecting from a
variety of APIMs, and then installing the selected APIM(s) in the module.
instructions are provided in the following section.
Installing an APIM in the 9A426-02 Module
To install an APIM in the 9A426-02 Module, you must:
•
•
•
•
Unpack the APIM
Remove the 9A426-02 Module’s ATM-Port Retaining Plate
Insert the APIM in the 9A426-02 Module
Attach the 9A426-02 Module’s ATM-Port Retaining Plate
Throughout each of these procedures you must never expose the module’s
components to Electrostatic Discharge. Make sure you have attached the
module’s disposable grounding strap to your wrist and always place the module
on a non-conductive surface.
2-4
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Preparing and Installing the 9A426-02 Module
Unpacking an APIM
1. Remove the APIM from the shipping box. (Save the box and packing
materials in the event the APIM must be reshipped.)
2. Remove the APIM from the non-conductive bag.
3. Examine the APIM and check for damage. If damage exists, DO NOT proceed;
contact Cabletron Systems Technical Support. Otherwise, place the APIM
back into the non-conductive bag, set the APIM aside, and proceed.
80 pin (female) connector
Figure 2-3. An APIM-21
Removing the 9A426-02 Module’s ATM-Port Retaining Plate
To install an APIM properly in the 9A426-02 Module, you MUST remove the
module’s ATM-Port Retaining Plate. Failure to do so can damage the module and
WARNING
the APIM.
1. Place the module (component side up) on a non-conductive, flat surface.
Position the module so that the module’s front (faceplate) is to the left and the
module’s back (backplane connectors) is to the right. See Figure 2-4.
2. Locate the module’s ATM-Port Retaining Plates. Each plate is secured by two
screws and is located on the right side panel of the module’s faceplate. See
2-5
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Preparing and Installing the 9A426-02 Module
3. Use a Phillips-head screwdriver to remove the two flathead securing screws
4. Remove the ATM-Port Retaining Plate. Set the plate aside.
Figure 2-5. Removing the ATM-Port Retaining Plate
Inserting an APIM into the 9A426-02 Module
1. Remove the module’s ATM-Port Retaining Plate.
2. Locate the area on the module where APIMs can be installed (shown in
Figure 2-4). This area contains eight standoffs (short metal posts). There are
four standoffs (arranged in an irregular rectangle) for each APIM (see insert in
Figure 2-4). There is a round-head screw at each end of these four standoffs.
3. Use a phillips head screwdriver to remove the four round-head screws from
the four standoffs. Set the screws aside.
4. Remove the APIM from its non-conductive bag.
5. Locate the APIM’s 80-pin (female) connector (see Figure 2-3).
6. Align the APIM’s female connector with the 80-pin male connector in the
APIM area of the 9A426-02 Module. Also align the APIM’s mounting holes
with the four standoffs in the APIM area of the module (see Figure 2-6).
2-7
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Preparing and Installing the 9A426-02 Module
Figure 2-6. Attaching an APIM to a 9A426-02 Module
7. Press down gently on the APIM to lock its female connector into the 9A426-02
Module’s male connector.
8. Secure the APIM to the module: Use a Phillips-head screwdriver to attach four
round-head screws to the four standoffs on the 9A426-02 Module.
9. Attach the 9A426-02 Module’s ATM-Port Retaining Plate (see next page).
Steps 1 through 9 explain how to insert one APIM in the 9A426-02 Module. To
insert a second APIM, repeat the same steps.
NOTE
Attaching the 9A426-02 Module’s ATM-Port Retaining Plate
1. Place the module (component side up) on a non-conductive, flat surface.
Position the module so that the module’s front (faceplate) is facing you.
2. Locate the area where the ATM-Port Retaining Plate attaches to the faceplate.
3. Place the ATM-Port Retaining Plate on the module (align the retaining plate’s
securing holes with the module’s securing holes). Make sure the Retaining
Plate’s faceplate (its smaller side) is flush with the module’s faceplate (see
4. Secure the retaining plate to the module: Use a Phillips-head screwdriver to
attach two flathead mounting screws to the module.
2-8
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Preparing and Installing the 9A426-02 Module
Figure 2-7. Attaching the ATM-Port Retaining Plate to the 9A426-02 Module
User-Accessible Components on the Module’s
Daughterboard
The user accessible components on the module’s daughterboard are located on
the underside of the daughterboard. These components include an eight position
DIP switch, a replaceable SMB-1 PROM, a replaceable BOOT PROM, and sockets
for DRAM and FLASH memory. You can access the DIP switch without
removing the daughterboard. However, to access the other user-accessible
components on the daughterboard, you must remove the daughterboard from the
motherboard.
2-9
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Preparing and Installing the 9A426-02 Module
DIP Switch
An eight-position DIP switch is located on the module’s daughterboard as shown
DIP Switch
(side view in
insert)
Figure 2-8. Location of DIP Switch on the 9A426-02 Module’s Daughterboard
2-10
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Preparing and Installing the 9A426-02 Module
Table 2-1. Function of DIP Switch
Switch
Function
Description
When toggled, this switch clears user-entered
passwords stored in NVRAM, and restores the
default passwords. Once the passwords are
reset, you can use the defaults or enter new
passwords.
Clear
Password
8
1
The module uses NVRAM to store user
entered parameters such as IP addresses,
device name, etc. To reset these parameters to
the factory defaults, toggle this switch. Once
reset you can use the defaults or enter new
parameters which are stored in NVRAM when
the module is powered down, and remain
there until the switch is toggled again.
Clear
NVRAM
7
6
2
Toggling this switch after pulling the board out
of the SmartSwitch 9000, clears download
information from NVRAM and forces image
files to be downloaded from the station
connected to the EPIM on the Environmental
Module configured to act as that module’s
BOOTP server.
Force BootP
Download
For Factory Use Only
For Factory Use Only
For Factory Use Only
For Factory Use Only
For Factory Use Only
5
4
3
2
1
Reserved
Reserved
Reserved
Reserved
Reserved
1
Do not toggle Switch 8 unless you intend to reset the user configured passwords to their
factory default settings.
!
2
CAUTION
Do not toggle Switch 7 unless you intend to reset the user parameters to the factory
default settings.
2-11
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Preparing and Installing the 9A426-02 Module
Removing the Daughterboard from the Motherboard
Never expose the module’s components to Electrostatic Discharge. Make sure you
have attached the module’s disposable grounding strap to your wrist and always
WARNING
place the module on a non-conductive surface.
To remove the module’s daughterboard from the motherboard:
1. Place the module (component side up) on a non-conductive, flat surface.
Position the module so that the module’s front (faceplate) is to the left and the
module’s back (backplane connectors) is to the right. The daughterboard
abuts the backplane connectors (see Figure 2-1).
2. Locate the daughterboard’s nine securing screws (see Figure 2-9).
3. Use a phillips head screwdriver to remove the securing screws. Set the screws
aside.
4. Grasp the daughterboard and lift up.
5. Turn the daughterboard over to reveal its user accessible components (see
2-12
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Preparing and Installing the 9A426-02 Module
SMB-1 PROM
BOOT PROM
FLASH SIMM slot
DRAM SIMM slot
DIP Switch
Figure 2-10. User-Accessible Components on Underside of Daughterboard
SMB-1 PROM
The 9A426-02 Module is shipped with an SMB-1 Firmware PROM. The SMB-1
Firmware PROM is located on the underside of the module’s daughterboard as
shown in Figure 2-10.
To upgrade the SMB-1 PROM, install the SMB-1 PROM Upgrade Kit. Installation
instructions are included in the upgrade kit.
2-14
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Preparing and Installing the 9A426-02 Module
BOOT PROM
The 9A426-02 Module is shipped with a BOOT PROM. The BOOT PROM is
located on the underside of the module’s daughterboard as shown in Figure 2-10.
To upgrade the BOOT PROM, install the BOOT PROM Upgrade Kit. Installation
instructions are included in the upgrade kit.
FLASH SIMM
The 9A426-02 Module is shipped with a 4Mb FLASH SIMM. The FLASH SIMM’s
socket is located on the underside of the module’s daughterboard as shown in
Figure 2-10.
To upgrade the FLASH SIMM, refer to the installation instructions included in the
FLASH SIMM Upgrade Kit.
DRAM SIMM
The 9A426-02 Module is shipped with 16 Mb of DRAM (on the module’s
motherboard). However if additional DRAM is desired, you can install a DRAM
SIMM in the socket on the underside of the module’s daughterboard as shown in
Figure 2-10.
To install a DRAM SIMM, refer to the installation instructions included in the
DRAM SIMM Upgrade Kit.
Installing the Module into the SmartSwitch 9000
Chassis
To install the 9A426-02 Module into the SmartSwitch 9000 Chassis, follow the
steps below:
To insure proper data transmission from the 9A426-02 Module to the INB on the
SmartSwitch 9000 backplane, two INB Terminator Modules must be installed on
NOTE
the rear of the SmartSwitch 9000 chassis. Refer to the INB Terminator Module
Installation Guide for information and installation procedure.
1. Remove the blank panel covering the slot in which the module is being
installed. If you are only installing one module, make sure the chassis’ other
module slots are covered. This action ensures proper airflow and cooling.
2-15
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Preparing and Installing the 9A426-02 Module
2. Attach one end of the ESD wrist strap packaged with the SmartSwitch 9000
chassis to your wrist. Plug the other end into the ESD Wrist Strap Grounding
receptacle in the lower right corner of the SmartSwitch 9000 Chassis shown in
3. Grasp the module and slide it into the slot.
Make sure that the module’s circuit card is between the card guides, as shown
that the module slides in straight and engages the backplane connectors
properly.
4. Lock down the top and bottom plastic tabs, as shown in Figure 2-11.
2-16
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Preparing and Installing the 9A426-02 Module
Plastic Tab
Jack for ESD
Wrist Strap
Metal Back-Panel
Module
Module Guides
Warning:
Ensure that the circuit card is between the card guides.
Lock down the top and bottom plastic tabs
at the same time, applying even pressure.
Figure 2-11. Installing the 9A426-02 Module
2-17
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Preparing and Installing the 9A426-02 Module
The Reset Switch
The Reset switch is located under the top plastic tab as shown in Figure 2-12. Use
the reset switch to reset the module’s processor, shutdown (power down) the
module, and/ or restart the module.
•
•
•
To reset the module’s i960 processor, press the reset switch twice within three
seconds.
To shutdown the module, press and hold the reset switch for three or more
seconds.
To restart the module, press the reset switch momentarily.
To enhance module security, use SNMP management to disable the reset switch.
Reset Switch
SMB
CPU
Figure 2-12. The Reset Switch
2-18
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Chapter 3
Operation
The 9A426-02 Module has three fixed network interface connections: the
module’s two front panel ATM ports, and the module’s INB interface each
connect to the module’s SmartSwitch ASIC core.
In addition to fixed interface connections, the module offers a user-configurable
FNB interface. Through Local Management or SNMP, you can connect the
module’s SmartSwitch ASIC core to one (or none) of the two FNB interfaces (FNB-
1 or FNB-2). Keep in mind that connecting the module’s SmartSwitch ASIC core
to an FNB interface also connects the selected FNB to the module’s three fixed
interface connections (the two front panel ATM ports and the INB interface).
ATM ports, the INB interface and, if configured by the user, one of the FNB
interfaces (FNB-1 or FNB-2). All packets that enter the module are converted into
a common format known as a canonical frame. The SmartSwitch ASIC core’s
circuitry determines the ports to which the frames are forwarded.
3-1
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Operation
Front Panel
Backplane
A
T
M
FNB-1
Interface
ATM
Interface
FNB-2
Interface
1
SmartSwitch
Core
(ASICs)
A
T
M
INB
Interface
ATM
Interface
2
ATM/FNB-1 Configuration
A
T
M
FNB-1
Interface
ATM
Interface
FNB-2
Interface
1
SmartSwitch
Core
(ASICs)
A
T
M
INB
Interface
ATM
Interface
2
ATM/FNB-2 Configuration
A
T
M
FNB-1
Interface
ATM
Interface
FNB-2
Interface
1
SmartSwitch
Core
(ASICs)
A
T
INB
Interface
M
ATM
Interface
2
ATM/No FNB Configuration
Figure 3-1. Configuration Options
3-2
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Operation
LAN Emulation
The 9A426-02 Module interconnects LANs over an ATM network through a
method known as LAN Emulation. LAN Emulation, or LANE, is a
method that makes a connection-orientated ATM network look and behave like a
shared connectionless Ethernet or Token Ring LAN Segment. Unlike other
methods of interconnecting LANs over ATM, LANE can handle routable
protocols such as TCP/ IP, IPX and DECnet, as well as non-routable protocols
such as NetBlOS and SNA.
LANE is an ATM Forum standard that is implemented by a variety of vendors
and ensures the interoperability between vendors to allow connectivity from
legacy LANs over an ATM backbone.
While LANE allows users to utilize ATM as a backbone between legacy LANs, it
also allows legacy LAN users to communicate with native ATM devices such as
file servers.
LANE allows you to retain equipment that is currently installed on your desktop,
while providing the capability of a high-speed uplink to an ATM network. As
such, it enhances your current equipment, as well as the equipment’s operating
system software. LANE provides high-speed ATM performance, without a
wholesale swap of hardware.
System Management Buses
There are two management channels within the SmartSwitch 9000 system: the
SMB-1 and the SMB-10. These buses provide out-of-band management and
intermodule management communication.
SMB-1 Bus
The SMB-1 is a 1Mbs management bus located within the SmartSwitch 9000. This
bus is utilized by all diagnostic controllers in the system including connectivity
modules, power supply modules and the environmental module. The SMB-1
transports inter-chassis information between system components, such as power
and environmental information, as well as diagnostic messages. Periodic loop-
back tests are performed by all modules which share this bus to ensure the
validity of SMB-1. In the event a failure is detected on SMB-1, the SMB-10 may be
used as an alternate communication channel.
3-3
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Operation
SMB-10 Bus
The SMB-10 is a 10Mbs management bus located within the SmartSwitch 9000
which is also used for inter-chassis communication of modules as well as serving
as an out-of-band management channel into the SmartSwitch 9000. The SMB-10 is
externalized from the chassis via an optional Ethernet Port Interface Module
(EPIM) located on the front of the Environmental Module. Through an EPIM
connection, full SNMP management of the SmartSwitch 9000 is available out-of-
band from user data. Modules which share the SMB-10 bus periodically send out
loop-back packets to ensure the validity of SMB-10. In the event a fault is detected
on the SMB-10, the SMB-1 can be used as an alternate communication channel by
the modules.
System Diagnostic Controller
This diagnostic controller is composed of a Z-80 microprocessor and its
supporting logic. The diagnostic controller is designed to control the power-up
sequencing of modules, monitor the 9A426-02 Module input and output power
parameters, keep watch over the main host processor, as well as monitor the
temperature and control the SMB LANVIEW diagnostic LED. Although the
diagnostic controller and the main host processor can operate independent of
each other if needed, they exchange information about each other’s status and
overall module condition. The information gathered by the diagnostic controller
is available to the network manager via local/ remote management and the LCD
located on the environment module. The 9A426-02 Module has been designed so
that in the event of a diagnostic controller fault, the 9A426-02 Module will
continue to function.
DC/DC Converter
The DC/ DC converter converts the 48 VDC on the system power bus to the
necessary operating voltages for its host network services module. The diagnostic
controller monitors and controls the operation of the DC/ DC converter.
INB Network Interface Block
The 9A426-02 Module’s INB interface includes a Network Interface Block
(INB NIB). Canonical frames processed by the module’s SmartSwitch ASIC core
that are destined for the INB on the SmartSwitch 9000’s backplane are converted
by the INB NIB into fixed length data blocks and then transmitted on the INB.
Conversely, data blocks received by the module from the INB are converted by
the INB NIB into canonical frames and forwarded to the SmartSwitch ASIC core
for processing.
3-4
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Operation
FDDI Network Interface Block
The 9A426-02 Module’s FNB Interface includes an FDDI Network Interface Block
(FNIB). Canonical frames processed by the module’s SmartSwitch ASIC core that
are destined for one of the two FNBs on the SmartSwitch 9000’s backplane are
first converted by the FNIB into FDDI packets and then transmitted onto the
selected FNB. Conversely, FDDI packets received by the module from an FNB are
converted by the FNIB into canonical frames and forwarded to the SmartSwitch
ASIC core for processing.
ATM Network Interface Block
The 9A426-02 Module’s ATM Interface includes an ATM Network Interface Block
(ANIB). ATM cells that enter the module’s front panel port(s) are converted by the
module’s ANIB into canonical frames. The ANIB uses hardware (ASICs) to
perform its conversions. The canonical frames are then forwarded to the
SmartSwitch ASIC core (a separate set of ASICs on the module) for processing.
Conversely, canonical frames processed by the module’s SmartSwitch ASIC core
that are destined for front panel ATM ports are converted via ASICs in the ANIB
into fixed length (53 byte) ATM cells and then transmitted to the ports. The ANIB
uses encapsulation techniques in accordance with the ATM Forum LAN
Emulation Specification. These techniques include the capability to encapsulate
ATM data in either Ethernet or Token Ring frame formats.
SecureFast Virtual Networking
Secure Fast Virtual Networking combines the best elements of bridging and
routing technologies with connection-oriented switching. Essential to Cabletron's
SecureFast architecture is the ability to embed layer-three virtual routing services
directly into its high-performance switches. Through a simple firmware upgrade,
customers can add "intranet management" software to a broad line of Cabletron
switches, including an installed base of over one million ports.
With Cabletron's "connection-oriented" architecture, users avoid latency and
performance problems and can build intranetworks that more closely mirror the
organizational structure of their business.
Since SecureFast Virtual Networking implements the same connection-oriented
concepts as ATM, customers are guaranteed a smooth migration from packet-
based LANs to cell-based technologies. SecureFast Switching allows customers to
receive many of the benefits of ATM such as security and accountability within
LAN infrastructures.
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Operation
An equally important SecureFast Virtual Networking feature is a broadcast
interception service which resolves issues such as security, broadcasts, multi-casts
and network flooding. Broadcast interception allows customers to cost-effectively
control broadcast traffic in a switched network without requiring a router.
i960 Core
The i960 core provides the SNMP protocol stacks, to support industry standard
MIBs. Additionally, Cabletron enterprise extension MIBs are supported for each
media type. Advanced management services, such as the Distributed LAN
Monitor, telnet and network address to MAC address mapping, are also provided
by the i960 core.
The host engine sends and receives packets via the CPU SmartSwitch ASIC
Interface. This method allows the traditional switch to perform spanning tree
protocol and other traditional switching functions. The SMB Interfaces provide
communication to the Host Engine for management functions and
communication with other modules in the chassis.
3-6
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Chapter 4
LANVIEW LEDs
The front panel LANVIEW LEDs indicate the status of the module and aid in
troubleshooting the module. The LANVIEW LEDs of the 9A426-02 Module are
shown in Figure 4-1.
ATM
9A426-02
System Status
INB Receive
SMB
CPU
INB
INB Transmit
FNB
FNB Transmit
ATM Transmit
FNB Receive
ATM Receive
A
T
M
1
ATM Transmit
ATM Receive
A
T
M
2
Figure 4-1. The LANVIEW LEDs of the 9A426-02 Module
4-1
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LANVIEW LEDs
The functions of the System Status (SMB and CPU) LEDs are listed in Table 4-1.
Table 4-1. System Status (SMB and CPU) LEDs
LED Color
Green
State
Description
Fully operational
Functional
Booting
Yellow/ Green
Yellow
Blinks yellow and green while booting
Performing power-up testing
Testing
Yellow (Flashing) Crippled
Not fully operational (i.e., one bad port)
Normal power-up reset
Red
Reset
Red (Flashing)
Off
Failed
Fatal error has occurred
No Power
No power is being supplied to the module
The status of the INB Receive LED is listed in Table 4-2.
Table 4-2. INB Receive LED
LED Color
Green
State
Link exists, no activity, port is enabled
Link exists, activity, port is enabled
No link, port is disabled
Yellow (Flashing)
Red
Red (Flashing)
Off
Link exists, port is disabled
No link, no activity, port is enabled
The status of the INB Transmit LED is listed in Table 4-3.
Table 4-3. INB Transmit LED
LED Color
State
Green (Flashing)
Yellow (Flashing)
Red
Activity, port is enabled
Port is in standby mode
Port is disabled
Red (Flashing)
Off
Fault or error exists
No activity, port is enabled
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LANVIEW LEDs
The status of the FNB Receive LED is listed in Table 4-4.
Table 4-4. FNB Receive LED
LED Color
Green
State
Link exists, no activity, port is enabled
Link exists, activity, port is enabled
No link, port is disabled
Yellow (Flashing)
Red
Red (Flashing)
Off
Link exists, port is disabled
No link, no activity, port is enabled
The status of the FNB Transmit LED is listed in Table 4-5.
Table 4-5. FNB Transmit LED
LED Color
State
Green (Flashing)
Yellow (Flashing)
Red
Activity, port is enabled
Port is in standby mode
Port is disabled
Red (Flashing)
Off
Fault or error exists
No activity, port is enabled
The status of the ATM Receive LED is listed in Table 4-6.
Table 4-6. ATM Receive LEDs
LED Color
State
Yellow (Flashing)
Activity
Red
Off
Failure
No Activity
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LANVIEW LEDs
The status of the ATM Transmit LED is listed in Table 4-7.
Table 4-7. ATM Transmit LEDs
LED Color
State
Green (Flashing)
Activity
Red
Off
Failure
No Activity
The following section lists the conditions of the APIM status (STS) and link (LNK)
LANVIEW LED’s.
An example showing the location of LANVIEW LEDs on an APIM is presented in
APIM’s documentation.
STS
LNK
1 2 3 4 5 6 7 8
Figure 4-2. The LANVIEW LEDs of an APIM-22
The status of the APIM Status (STS) LED is listed in Table 4-8.
Table 4-8. APIM Status (STS) LED
LED Color
Green
State
Active
Reset
Amber
Red
Failure
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LANVIEW LEDs
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Chapter 5
Specifications
Technical Specifications
CPU
Intel i960 RISC-based microprocessor
Memory
Main Memory:
Flash Memory:
16 Mb standard (expandable)
4 Mb standard (expandable)
Address Table Size
16,000 entries (expandable)
Power
100 - 125 VAC or 200 - 250 VAC @ 50 - 60 Hz
Network Interfaces
APIM Connectors
5-1
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Specifications
Standards
ATM Forum UNI v3.0/ 3.1
ITU I.361 ATM Layer
Q.2931
LAN Emulation v1.0
Safety
It is the responsibility of the person who sells the system to which the module will
be a part to ensure that the total system meets allowed limits of conducted and
radiated emissions.
!
CAUTION
This equipment meets the safety requirements of:
UL 1950
CSA C22.2 No. 950
EN 60950
IEC 950
The EMI Requirements of:
•
•
•
FCC Part 15 Class A
EN 55022 Class A
VCCI Class I
The EMC requirements of:
•
•
•
•
EN 50082-1
IEC 801-2 ESD
IEC 801-3 Radiated susceptibility
IEC 801-4 EFT
Service
MTBF (MHBK-217E)
MTTR
>200,000 hrs.
<0.5 hr.
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Specifications
Physical
Dimensions
35.0 D x 44.0 H x 6.0 W centimeters
(13.8 D x 17.4 H x 1.2 W inches)
Weight
Unit:
Shipping:
4.525 kgs. (10 lbs.)
<6.787 kgs. (15 lbs.)
Environment
Operating Temperature: +5° to 40° C (41° to 104° F)
Storage Temperature:
Relative Humidity:
-30 to 90° C (-22° to 164° F)
5% to 95% non-condensing
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Specifications
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