Cabletron Systems Switch ELS100 24TXM User Manual

SmartSTACK 100  
ELS100-24TXM  
ETHERNET SWITCH  
INSTALLATION  
AND  
USER GUIDE  
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DOC NOTICE  
This digital apparatus does not exceed the Class A limits for radio noise emissions from dig-  
ital 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.  
VCCI NOTICE  
This is a Class A product based on the standard of the Voluntary Control Council for Interfer-  
ence by Information Technology Equipment (VCCI). If this equipment is used in a domestic  
environment, radio disturbance may arise. When such trouble occurs, the user may be re-  
quired to take corrective actions.  
CABLETRON SYSTEMS, INC.  
PROGRAM LICENSE AGREEMENT  
IMPORTANT: Before utilizing this product, carefully read this License Agreement.  
This document is an agreement between you, the end user, and Cabletron Systems, Inc.  
(“Cabletron”) that sets forth your rights and obligations with respect to the Cabletron software  
program (the “Program”) contained in this package. The Program may be contained in firm-  
ware, chips or other media. BY UTILIZING THE ENCLOSED PRODUCT, YOU ARE AGREE-  
ING TO BECOME BOUND BY THE TERMS OF THIS AGREEMENT, WHICH INCLUDES  
THE LICENSE AND THE LIMITATION OF WARRANTY AND DISCLAIMER OF LIABILITY.  
IF YOU DO NOT AGREE TO THE TERMS OF THIS AGREEMENT, PROMPTLY RETURN  
THE UNUSED PRODUCT TO THE PLACE OF PURCHASE FOR A FULL REFUND.  
CABLETRON SOFTWARE PROGRAM LICENSE  
1. LICENSE. You have the right to use only the one (1) copy of the Program provided  
in this package subject to the terms and conditions of this License Agreement.  
You may not copy, reproduce or transmit any part of the Program except as per-  
mitted by the Copyright Act of the United States or as authorized in writing by  
Cabletron.  
2. OTHER RESTRICTIONS. You may not reverse engineer, decompile, or disassem-  
ble the Program.  
3. APPLICABLE LAW. This License Agreement shall be interpreted and governed  
under the laws and in the state and federal courts of New Hampshire. You accept  
the personal jurisdiction and venue of the New Hampshire courts.  
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EXCLUSION OF WARRANTY  
AND DISCLAIMER OF LIABILITY  
1. EXCLUSION OF WARRANTY. Except as may be specifically provided by Cabletron in  
writing, Cabletron makes no warranty, expressed or implied, concerning the Pro-  
gram (including its documentation and media).  
CABLETRON DISCLAIMS ALL WARRANTIES, OTHER THAN THOSE SUP-  
PLIED TO YOU BY CABLETRON IN WRITING, EITHER EXPRESSED OR IM-  
PLIED, INCLUDING BUT NOT LIMITED TO IMPLIED WARRANTIES OF  
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, WITH RE-  
SPECT TO THE PROGRAM, THE ACCOMPANYING WRITTEN MATERIALS,  
AND ANY ACCOMPANYING HARDWARE.  
2. NO LIABILITY FOR CONSEQUENTIAL DAMAGES. IN NO EVENT SHALL  
CABLETRON OR ITS SUPPLIERS BE LIABLE FOR ANY DAMAGES WHATSO-  
EVER (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSI-  
NESS, PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS  
INFORMATION, SPECIAL, INCIDENTAL, CONSEQUENTIAL, OR RELIANCE  
DAMAGES, OR OTHER LOSS) ARISING OUT OF THE USE OR INABILITY TO  
USE THIS CABLETRON PRODUCT, EVEN IF CABLETRON HAS BEEN AD-  
VISED OF THE POSSIBILITY OF SUCH DAMAGES. BECAUSE SOME STATES  
DO NOT ALLOW THE EXCLUSION OR LIMITATION OF LIABILITY FOR CON-  
SEQUENTIAL OR INCIDENTAL DAMAGES, OR ON THE DURATION OR LIMI-  
TATION OF IMPLIED WARRANTIES, IN SOME INSTANCES THE ABOVE  
LIMITATIONS AND EXCLUSIONS MAY NOT APPLY TO YOU.  
UNITED STATES GOVERNMENT RESTRICTED RIGHTS  
The enclosed product (a) was developed solely at private expense; (b) contains “restricted  
computer software” submitted with restricted rights in accordance with Section 52227-19 (a)  
through (d) of the Commercial Computer Software - Restricted Rights Clause and its succes-  
sors, and (c) in all respects is proprietary data belonging to Cabletron and/or its suppliers.  
For Department of Defense units, the product is licensed with “Restricted Rights” as defined  
in the DoD Supplement to the Federal Acquisition Regulations, Section 52.227-7013 (c) (1)  
(ii) and its successors, and use, duplication, disclosure by the Government is subject to re-  
strictions as set forth in subparagraph (c) (1) (ii) of the Rights in Technical Data and Computer  
Software clause at 252.227-7013. Cabletron Systems, Inc., 35 Industrial Way, Rochester,  
New Hampshire 03867-0505.  
SAFETY INFORMATION  
LASER RADIATION AND CONNECTORS  
When the connector is in place, all laser radiation remains within the fiber. The maximum  
amount of radiant power exiting the fiber (under normal conditions) is -12.6 dBm or 55 x 10 -  
6 watts. Removing the optical connector from the transceiver allows laser radiation to emit  
directly from the optical port. The maximum radiance from the optical port (under worst case  
conditions) is 0.8 W cm -2 or 8 x 10 3 W m 2 sr-1.  
Do not use optical instruments to view the laser output. The use of optical instruments to view  
laser output increases eye hazard. When viewing the output optical port, power must be re-  
moved from the network adapter.  
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DECLARATION OF CONFORMITY  
Application of Council Directive(s):  
89/336/EEC  
73/23/EEC  
Manufacturer’s Name:  
Cabletron Systems, Inc.  
Manufacturer’s Address:  
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:  
EC Directive 89/336/EEC  
EC Directive 73/23/EEC  
EN 55022  
EN 50082-1  
EN 60950  
Equipment Type/Environment:  
Networking Equipment, for use in a Com-  
mercial or Light Industrial Environment.  
We the undersigned, hereby declare, under our sole responsibility, that the equip-  
ment packaged with this notice conforms to the above directives.  
Manufacturer  
Legal Representative in Europe  
Mr. J. Solari  
Mr. Ronald Fotino  
Full Name  
Full Name  
Principal Compliance Engineer  
Title  
Managing Director - E.M.E.A.  
Title  
Rochester, NH, USA  
Location  
Newbury, Berkshire, England  
Location  
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TABLE OF CONTENTS  
PREFACE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Preface i  
Purpose. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i  
Audience. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i  
Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i  
Message Formats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i  
Keyboard Entries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ii  
Other Conventions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ii  
Organization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ii  
1. PRODUCT OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1  
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1  
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3  
Rear Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
Feature Summaries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
IEEE 802.1D Bridge. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
Spanning Tree Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Frame Buffering and Frame Latency . . . . . . . . . . . . . . . . . . . . . . . . 7  
Software Download . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Non-volatile Parameter Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Configuration and Management Interfaces . . . . . . . . . . . . . . . . . . . 8  
RMON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8  
Port Mirroring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
Auto-negotiation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
Broadcast Throttling. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
BootP/DHCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
Full Duplex Mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
Flow Control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
Virtual LANs (VLANs) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
Class of Service. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11  
Application Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11  
Client/Server Network Application . . . . . . . . . . . . . . . . . . . . . . . . . 12  
Local Backbone Application. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13  
2. INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
Inspecting Your Shipment. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
Site Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
Mounting the Switch on a Table or Shelf . . . . . . . . . . . . . . . . . . . . . . . 16  
Mounting the Switch on a Wall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
Mounting the Switch in a Rack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18  
Installing a Fiber Uplink Module into the Switch . . . . . . . . . . . . . . . . . . 19  
Connecting a Terminal to the Console Port . . . . . . . . . . . . . . . . . . . . . 20  
Powering the Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21  
Power-Up. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21  
ELS100-24TXM  
Table of Contents i  
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Network Cable Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
Copper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
Fiber . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
10Base-T/100Base-TX Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23  
100Base-FX Fiber Ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24  
Fiber Uplink Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24  
3. ELS100-24TXM USER INTERFACE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
User Access . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26  
Factory Defaults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
Menu Hierarchy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
Main Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29  
System Configuration Menu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30  
SNMP Configuration Menu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31  
Switch Configuration Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32  
Forwarding Table Configuration Menu. . . . . . . . . . . . . . . . . . . . . . . . . 33  
Spanning Tree Configuration Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . 35  
Spanning Tree Port Configuration Menu . . . . . . . . . . . . . . . . . . . . . . . 37  
Spanning Tree Port #n Configuration Menu. . . . . . . . . . . . . . . . . . . . . 38  
VLAN Configuration Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39  
VLAN Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40  
VLAN #n Configuration Menu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41  
VLAN Port Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42  
Class of Service Configuration Menu. . . . . . . . . . . . . . . . . . . . . . . . . . 43  
Port Priority Menu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44  
Port Menu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45  
Port Configuration Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46  
Switch Statistics Screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47  
Switch Summary Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48  
Port Statistics Screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49  
General Information Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51  
Download Software Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52  
Save Current Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
Return to Default Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
Logout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53  
Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54  
4. CONFIGURING & MONITORING THE SWITCH . . . . . . . . . . . . . . . . . . . . . 55  
Common Tasks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55  
Setting Password Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56  
Assigning an IP Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57  
Checking Network Configuration Status. . . . . . . . . . . . . . . . . . . . . . . . 57  
Connecting via Telnet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57  
Setting SNMP Management Access . . . . . . . . . . . . . . . . . . . . . . . . . . 58  
Viewing Switch Statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58  
Configuring Port Mirroring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59  
ii Table of Contents  
ELS100-24TXM  
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Downloading a Software Upgrade . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59  
Downloading Via the Serial Port . . . . . . . . . . . . . . . . . . . . . . . . . . 60  
Downloading Via TFTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60  
Configuring Spanning Tree Parameters . . . . . . . . . . . . . . . . . . . . . . . . 61  
Configuring VLANs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62  
Configuring Class of Service. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62  
Configuring Port Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63  
Configuring the Forwarding Table. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64  
Configuring Broadcast Cutoff Rate . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65  
Setting a Default Gateway . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66  
Configuring BootP/DHCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66  
5. SNMP MANAGEMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67  
The SNMP Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67  
MIB Objects . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68  
RFC 1213 (MIB-II) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68  
RFC 1398 (Ethernet MIB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69  
RFC 1493 (Bridge MIB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69  
RFC 1757 (RMON MIB). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69  
Cabletron Systems Proprietary MIB Extensions . . . . . . . . . . . . . . 70  
Compiling MIB Extensions: Cabletron Website. . . . . . . . . . . . . . . . . . . 73  
APPENDIX A. TECHNICAL SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . 75  
General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75  
Standards Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75  
Certification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75  
Data Rate. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75  
Environmental Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75  
Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76  
Physical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76  
Microprocessor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76  
Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76  
Port Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77  
Console Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77  
10Base-T and 100Base-TX Ports . . . . . . . . . . . . . . . . . . . . . . . . . 77  
MDI/MDI-X Crossover Cable Wiring . . . . . . . . . . . . . . . . . . . . . . . 78  
Power Cord Set Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78  
General Requirements. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78  
Country-Specific Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . 79  
APPENDIX B. SPANNING TREE CONCEPTS. . . . . . . . . . . . . . . . . . . . . . . . . 81  
General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81  
Spanning Tree Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81  
Spanning Tree Protocol in a Network . . . . . . . . . . . . . . . . . . . . . . . . . . 82  
Spanning Tree Protocol Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . 83  
Spanning Tree Protocol Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84  
Communicating Between Bridges . . . . . . . . . . . . . . . . . . . . . . . . . 84  
Selecting a Root Bridge and Designated Bridges . . . . . . . . . . . . . 84  
Selecting Designated Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84  
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Handling Duplicate Paths . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84  
Remapping Network Topology . . . . . . . . . . . . . . . . . . . . . . . . . . . 84  
APPENDIX C. FLOW CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87  
APPENDIX D. VIRTUAL LANS (VLANS). . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89  
VLANs and Frame Tagging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89  
ELS100-24TXM VLAN Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . 90  
VLAN ID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90  
Ports in VLAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90  
VLAN Egress Ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91  
VLAN Access Ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91  
VLAN Hybrid Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92  
VLAN Application Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94  
APPENDIX E. CLASS OF SERVICE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95  
APPENDIX F. ACRONYMS & ABBREVIATIONS . . . . . . . . . . . . . . . . . . . . . . 97  
INDEX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Index 99  
iv Table of Contents  
ELS100-24TXM  
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PREFACE  
Purpose  
This guide provides information about the features and applications of the  
Cabletron Systems ELS100-24TXM switch as well as instructions for  
configuring and monitoring the switch.  
Audience  
This guide is intended for Ethernet local area network (LAN)  
administrators and Management Information Systems (MIS) personnel  
with the following background:  
Working knowledge of Ethernet LANs  
Familiarity with Transmission Control Protocol/Internet Protocol  
(TCP/IP) and Simple Network Management Protocol (SNMP)  
Conventions  
This section describes the conventions used in this guide.  
Message Formats  
Two types of messages, identified by icons, appear in the text:  
A note informs you of special circumstances.  
A caution indicates the possibility of equipment damage.  
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Keyboard Entries  
This guide uses the following conventions for keyboard entries:  
When you read “enter,” type the text and press the [Enter] key.  
Example: Enter the Gateway IP address and press the [Enter] key.  
When you read “select,” type the letter associated with the  
parameter.  
Example: Select a from the System Configuration Menu to view the  
SNMP Configuration Menu.  
Other Conventions  
This guide uses the following typographical conventions:  
Initial Caps  
[Enter]  
Menu titles and console menu selections  
Used to designate the Enter or Return key.  
ALL CAPS  
Used to designate fields within the console menus.  
(Example: CONNECTION)  
courier font Screen messages and user prompts.  
Selection  
Field  
Describes a user-configurable user interface item.  
Describes a read-only information item  
Organization  
Chapter 1. Product Overview: Describes the features of the switch, front  
and rear panel components and application examples.  
Chapter 2. Installation: Describes the content of your switch shipment,  
lists site requirements, and provides mounting instructions. Instructions  
for making connections and powering up the switch are provided as well.  
Chapter 3. ELS100-24TXM User Interface: Describes the user interface  
console menus and lists the factory defaults for system settings. Each of  
the console menus are presented along with a description of the  
selections/fields available within each menu.  
Chapter 4. Configuring and Monitoring the Switch: Describes  
common tasks and associated steps required to configure the switch, and  
covers common switch and network considerations required to ensure  
system integrity.  
Chapter 5. SNMP Management: Describes how the Simple Network  
Management Protocol (SNMP) communication protocol is used to  
manage the switch, and provides a description of industry standard and  
proprietary Managed Information Bases (MIBs) supported by the switch.  
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Appendix A. Technical Specifications: Provides a list of standards  
compliance and certifications as well as physical and operational  
specifications.  
Appendix B. Spanning Tree Concepts: Describes the operation of the  
Spanning Tree Protocol and how it is used to resolve the problems of  
physical loops in a network.  
Appendix C. Flow Control: Describes how the flow control features are  
used to provide a mechanism for protecting the switch from overload  
conditions and to keep additional traffic off the network.  
Appendix D. Virtual LANs (VLANs): Describes how the switch uses  
VLANs to create isolated network domains, and provides illustrations of  
VLAN switch configurations.  
Appendix E. Class of Service: Describes how the traffic Class of Service  
features can be used to assign mission-critical data a higher priority  
through the switch by delaying less critical traffic during periods of  
congestion.  
Appendix F. Acronyms and Abbreviations: Provides definitions for a  
list of common acronyms and abbreviations used within the user guide  
and the networking industry.  
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1. PRODUCT OVERVIEW  
Description  
This installation and user guide describes the Cabletron Systems  
ELS100-24TXM Ethernet switch. The switch is IEEE 802.1D-compliant  
and supports 24 IEEE 802.3u 100Base-TX Fast Ethernet ports. Each port  
can alternatively operate as an IEEE 802.3i 10Base-T port. In addition,  
two of the switch’s ports support Fast Ethernet over fiber (IEEE 802.3u  
100Base-FX) when a modular daughtercard is installed.  
The Cabletron ELS100-24TXM switch automatically learns end-station  
addresses from the network and stores them in a Media Access Control  
(MAC) address forwarding table. Incoming packets are then forwarded to  
the appropriate output port based on the addresses in the packet. Each  
port on the switch operates at full Fast Ethernet wire speed with full  
address and frame filtering.  
The Cabletron ELS100-24TXM switch contains advanced features such  
as Remote Monitoring (RMON), IEEE 802.1Q virtual LANs (VLANs),  
IEEE 802.1p Class of Service, flow control and broadcast throttling. For  
network management, the ELS100-24TXM switch includes a standards-  
compliant Simple Network Management Protocol (SNMP) agent. This  
agent allows network management station applications to collect and  
present status and performance information about a switch as well as  
providing the ability to configure and control functions on the device.  
Network management can also be performed in-band using the popular  
TCP/IP application, Telnet. In addition, a serial console port allows out-of-  
band management using a PC or an ASCII terminal. The ELS100-24TXM  
switch is desktop or rack-mountable. LEDs on the front panel provide  
information about the operating status of the switch. The back panel of the  
switch contains the power connector and a power switch. Two fans  
maintain ventilation and cooling for internal switch components.  
This chapter provides the following information:  
Product Description  
Features  
Front and Rear Panel Component Descriptions  
Feature Summaries  
Application Examples  
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Features  
Ports:  
- 24 dual-speed 10Base-T/100Base-TX ports using RJ-45  
connectors (MDI-X); 22 ports active when using modular slot  
for 100Base-FX connections  
- 1 modular slot for 2 100Base-FX ports using SC connectors  
Architecture:  
- 8-port 10/100 switch ASIC in a distributed switching  
architecture  
- 4.2 Gbps internal switching fabric  
- 12 MB packet buffering (512 KB/port)  
- 4096 MAC address forwarding table per port; up to 12,288  
addresses per system  
- IEEE 802.3u auto-negotiation for full/half duplex and 10/100  
Mbps speed operation on all RJ-45 ports  
- High performance store-and-forward switching  
Performance:  
- Forwarding: 3.6 million packets-per-second (64 byte packets)  
- Filtering: 3.6 million packets-per-second (64 byte packets)  
Traffic Management:  
- Tag and port-based VLANs per the IEEE 802.1Q draft  
standard - 4094 VLAN IDs recognized per switch  
- Class of Service support per the IEEE 802.1p draft standard  
- Flow control per port: IEEE 802.3x frame-based for full duplex;  
back-pressure for half duplex  
- Broadcast throttling for broadcast storm control  
Network Management:  
- SNMP compliant agent: MIB II (RFC 1213); Bridge MIB (RFC  
1493); Ethernet MIB (RFC 1398); RMON - Statistics, History,  
Alarm and Event groups per port (RFC 1757); private MIB  
extensions  
- Port mirroring for network monitoring and analysis  
- Telnet  
- Console port, RS-232, female DB-9 connector, null modem  
- BootP/DHCP for IP address configuration  
LED Indicators  
- 10Base-T/100Base-TX Ethernet ports: Link, Activity, 100Mbps  
Speed, Full Duplex  
- 100Base-FX Ethernet ports: Link and Activity  
- System: Power, Test  
Software:  
- Extensive diagnostics for product testing and troubleshooting  
- Upgrades using the front panel console port or in-band with  
TFTP  
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Front Panel  
Figure 1-1 shows the front panel of the ELS100-24TXM. Table 1-1 defines  
the ELS100-24TXM front panel components.  
Figure 1-1. ELS100-24TXM Front Panel  
Table 1-1. Front Panel Components  
Name  
Function  
100Base-FX Fiber ports  
(Ports 1 and 2)*  
Fiber ports using SC fiber connectors for fiber uplink  
modules (see Table 2-3 for a list of available uplink  
modules).  
Fiber Ports 1 and 2  
LEDs*  
Indicates Link and Activity information (see Table 1-2  
for details).  
10Base-T/100Base-TX  
RJ-45 ports (Ports 1-24)*  
Copper ports using RJ-45 port connectors. All ports  
are wired MDI-X.  
Ports 1-24 RJ-45 LEDs*  
Indicates Link, Activity, Speed and Duplex information  
(see Table 1-2 for details).  
LED mode button  
Button used to switch RJ-45 port LEDs between Link/  
Activity mode and 100M/Full Duplex mode. This button  
has no affect on fiber port LEDs.  
Power LED  
Test LED  
Lights steady green to indicate power is supplied to the  
switch. Off indicates no power is supplied to the switch.  
Lights steady green after a reset and remains on until  
successful completion of power-on self tests. Off indi-  
cates a successful completion of the power-on self  
tests.  
Console port  
Female DB-9 connector configured as a null modem  
connection for serial out-of-band management using  
the console menus.  
* There are 24 total ports on the ELS100-24TXM switch. When the fiber module  
is installed, these ports become ports 1 and 2, used for fiber connections.  
Ports 1 and 2 RJ-45 connectors then become disabled.  
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Figure 1-2 shows the Link and Activity LEDs for the 2 100Base-FX ports  
(fiber port LED functions are defined in Table 1-2). The LEDs are  
positioned to the left of their associated port.  
Link LEDs  
Activity LEDs  
Figure 1-2. 100Base-FX Port LEDs  
Figure 1-3 shows the Link and Activity port LEDs for 24 10Base-T/  
100Base-TX ports (default configuration). When the fiber module is  
installed, ports 1 and 2 RJ-45 LEDs become disabled.  
Pressing the front panel LED mode button changes the operation of the  
RJ-45 LEDs to 100M Speed and Full Duplex, as shown in Figure 1-4.  
The numbers above and below the port LEDs identify the  
LEDs associated with a specific RJ-45 port.  
9
10  
11  
12  
17  
18  
19  
20  
1
5
2
3
4
Link  
Activity  
Link  
Link  
Activity  
Link  
Link  
Activity  
Link  
Activity  
Activity  
Activity  
6
7
8
13  
14  
15  
16  
21  
22  
23  
24  
Figure 1-3. RJ-45 Port LEDs Default Configuration  
1
5
2
3
4
9
10  
11  
12  
17  
18  
19  
20  
10/100 speed  
10/100 speed  
Full/half duplex  
10/100 speed  
10/100 speed  
Full/half duplex  
10/100 speed  
Full/half duplex  
10/100 speed  
Full/half duplex  
Full/half duplex  
Full/half duplex  
6
7
8
13  
14  
15  
16  
21  
22  
23  
24  
Figure 1-4. Port LEDs LED Mode Button Pressed  
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The port LEDs are grouped to the left of their corresponding RJ-45 ports.  
Table 1-2 defines the performance of the port LEDs for the 10Base-T/  
100Base-TX ports in both the default configuration and with the LED  
mode button pressed.  
Table 1-2. Port LEDs Defined  
Function  
Name  
Fiber Ports  
Link LED On: Indicates a valid connection (link) on the associat-  
ed port.  
Link LED Off: Indicates no link on the associated port.  
Activity LED flashing: Indicates the presence of transmit and/or  
receive activity.  
Activity LED Off: Indicates the absence of transmit or receive ac-  
tivity.  
RJ-45 Ports De- Link LED On: Indicates a valid connection (link) on the associat-  
fault Configura-  
tion  
ed port.  
Link LED Off: Indicates no link on the associated port.  
Activity LED flashing: Indicates the presence of transmit and/or  
receive activity.  
Activity LED Off: Indicates the absence of transmit or receive ac-  
tivity.  
RJ-45 Ports  
LED mode but-  
ton pressed  
Speed LED On: Indicates the port is in the 100Base-TX mode.  
Speed LED Off: Indicates the port is in the 10Base-T mode.  
Duplex LED On: Indicates the port is in the full duplex mode.  
Duplex LED Off: Indicates the port is in the half duplex mode.  
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Rear Panel  
Figure 1-5 shows the ELS100-24TXM rear panel and Table 1-3 defines  
the rear panel components.  
Figure 1-5. ELS100-24TXM Rear Panel  
Table 1-3. Rear Panel Components  
Name  
Function  
Power Connector  
Power Switch  
Fan Outlets  
Provides AC power to the switch.  
Allows you to turn the switch power on and off.  
Air exit vents through which internal fans discharge air  
for ventilation purposes.  
Feature Summaries  
The following summaries provide a brief description of ELS100-24TXM  
features in areas such as standards compliance, functionality,  
performance, and options.  
IEEE 802.1D Bridge  
The ELS100-24TXM switch is fully compliant with IEEE 802.1D  
transparent bridging specifications. An aggregate address table  
containing 4096 entries per 8 switch ports is provided for learning,  
filtering, and forwarding. The switch can support up to a maximum of  
12,288 addresses. Addresses are automatically learned by the switch,  
and can be individually assigned specific forwarding treatment by the  
network administrator if desired. Forwarding table configuration can be  
made out-of-band via the console interface or in-band via SNMP or  
Telnet. Static and dynamic addresses are both stored in this table. One  
static address is assigned per port by default. The Forwarding Table  
Configuration screen in the console menus allows you to assign additional  
static addresses if required.  
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Spanning Tree Protocol  
The ELS100-24TXM switch supports the IEEE 802.1D Spanning Tree  
Protocol. This protocol allows redundant connections to be created  
between different LAN segments for purposes of fault tolerance. Two or  
more physical paths between different segments can be created through  
the switch, with the Spanning Tree Protocol choosing a single path at any  
given time and disabling all others. If the chosen path fails for any reason,  
a disabled alternative is activated, thereby maintaining the connection.  
This prevents network traffic from circulating in an endless loop formed by  
multiple connections to the same LAN segment.  
Spanning Tree parameters are configurable in the Spanning Tree  
Configuration Menu using the console menus or via SNMP (see Appendix  
B, “Spanning Tree Concepts,” for more information).  
Frame Buffering and Frame Latency  
The ELS100-24TXM switch is a store-and-forward switching device. Each  
frame is copied into switch memory before being forwarded to another  
port. This method ensures that all forwarded frames conform to a  
standard Ethernet frame size and have a correct cyclic redundancy check  
(CRC) for data integrity. This switching method prevents bad frames from  
traversing the network and using up valuable network bandwidth, as with  
cut-through switching technology.  
To minimize the possibility of dropping frames on congested ports, the  
ELS100-24TXM switch provides 4 MB of dynamically allocated frame  
buffering per 8 ports. This buffer space is used to queue packets for  
transmission on congested networks. This is an additional advantage  
over cut-through switching technology, which drops packets immediately  
when experiencing collisions.  
Software Download  
The ELS100-24TXM switch supports the industry-standard Trivial File  
Transfer Protocol (TFTP) for downloading software to the switch. All  
switch software is stored in a 2 MB sectored flash ROM. The download  
feature allows you to easily install software upgrades to the unit. Software  
can alternatively be downloaded via the serial console port using the  
XMODEM protocol.  
A TFTP or XMODEM software download is invoked via the Download  
Software Menu using the console menus. A TFTP download can also be  
invoked via SNMP.  
Non-volatile Parameter Storage  
Important operating parameters such as IP addresses, Spanning Tree  
configuration, and management security parameters, are stored in non-  
volatile Flash memory. These values are retained when the switch  
experiences power interruptions or is powered down for normal  
maintenance.  
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Configuration and Management Interfaces  
The ELS100-24TXM switch can be managed using any of the following  
three methods:  
Serial console, out-of-band  
An RS-232 connection, using a DB-9 connector, is supported for out-  
of-band switch management. Serial console management is per-  
formed using a terminal, or computer system running communica-  
tions software. See Chapter 3, “ELS100-24TXM User Interface,” for  
more detailed information on managing the ELS100-24TXM switch  
via the serial console.  
Telnet, in-band (over Ethernet)  
The switch supports management through a Telnet connection using  
the TCP/IP protocols. Telnet is performed using an ASCII terminal or  
computer system running communications software. See Chapter 3,  
“ELS100-24TXM User Interface,” for more detailed information on  
managing the switch via the serial console. Global password protec-  
tion for changing the operating parameters of the switch is provided.  
SNMP-based network manager, in-band  
The switch can be managed using SNMP, the most common protocol  
used today for network management. Standard agent MIBs embed-  
ded in the switch provide basic SNMP management through indus-  
try-standard SNMP applications.  
Management security protection is provided based on SNMP com-  
munity names. See Chapter 5, “SNMP Management,” for more infor-  
mation.  
RMON  
RMON (Remote Monitoring) is a facility used to manage networks  
remotely while providing multi-vendor interoperability between monitoring  
devices and management stations. RMON is defined by an SNMP MIB.  
This MIB is divided into nine different groups, each gathering specific  
statistical information or performing a specific function. RMON-capable  
devices gather network traffic data and then store them locally until  
downloaded to an SNMP management station.  
The ELS100-24TXM supports four of the nine groups of RMON defined  
for Ethernet networks on a per port basis. Specifically, these are:  
Statistics: a function that maintains counts of network traffic statistics  
such as number of packets, broadcasts, collisions, errors, and  
distribution of packet sizes.  
History: a function which collects historical statistics based on user-  
defined sampling intervals. The statistical information collected is the  
same as the Statistics group, except on a time stamped basis.  
Alarm: a function that allows managers to set alarm thresholds based  
on traffic statistics. Alarms trigger other actions through the Event  
group.  
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Event: a function that operates with the Alarm group to define an  
action that will be taken when an alarm condition occurs. The event  
may write a log entry and/or send a trap message.  
RMON Statistics group information is displayed on the Port Statistics  
Screen in the console menus. Additional RMON functionality is available  
via SNMP.  
Port Mirroring  
The ELS100-24TXM switch includes the ability to mirror the traffic being  
switched on any port for purposes of network traffic analysis and  
connection integrity. When this feature is enabled, a protocol analyzer or  
RMON probe is connected to any port in a group of eight. This port is  
configured to mirror the traffic from any other port in the same group of  
ports. The groupings are ports 1-8, 9-16 and 17-24. You can only mirror  
one port to another port at one time. Port mirroring occurs at the same  
speed configured for the port (10Mbps-to-10Mbps or 100Mbps-to-  
100Mbps). Port mirroring is configurable in the Switch Configuration  
Menu using the console menus or via SNMP.  
Auto-negotiation  
Auto-negotiation is a process that permits the switch to automatically  
select the operational modes of its 10/100 RJ-45 ports. Upon first being  
connected, the switch detects the speed of the network the port is  
connected to, either 10Mbps or 100Mbps, and the type of communication  
setting, half or full duplex. The port is then automatically set by the switch  
to operate in the proper mode, without user intervention. It is not required  
that the network device being connected to the switch supports auto-  
negotiation as the ELS100-24TXM switch automatically adjusts to the  
network device’s communication settings. Auto-negotiation is  
configurable in the Port Configuration Menu of the console menus or via  
SNMP.  
Broadcast Throttling  
The ELS100-24TXM has the capability to throttle (or limit) the flooding of  
packets through the switch. Broadcast, multicast, and unknown  
destination address unicast packets received by the switch are typically  
flooded to all ports on the switch or on a given VLAN. When the number  
of these types of packets being forwarded is large, the performance of the  
switch in forwarding packets of other types may suffer. A programmable  
broadcast cutoff rate parameter allows a rate threshold to be set in the  
switch for the forwarding of broadcast and unknown destination address  
packets. If the cutoff rate is exceeded, further packets of these types are  
dropped. This capability helps to alleviate broadcast storms, a problem  
often encountered in Ethernet networks. Broadcast throttling is  
configurable in the Switch Configuration menu of the console menus or  
via SNMP.  
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BootP/DHCP  
The Bootstrap Protocol (BootP) and the Dynamic Host Configuration  
Protocol (DHCP) provide for the capability of passing configuration  
information to hosts on a TCP/IP network. Using this process, network  
devices do not need to be configured before they can communicate using  
the TCP/IP protocol suite. The ELS100-24TXM switch uses BootP and  
DHCP to automatically configure IP address information without requiring  
access to the console menus. BootP/DHCP operation is configurable  
using the BootP/DHCP Enable option in the System Configuration Menu  
of the console menus or via SNMP.  
LEDs  
The switch port LEDs provide a quick and accurate display of the integrity  
of switch connections and port mode. The default operation of the RJ-45  
LEDs indicates Link (L) and Activity (A) for each of the ports. The  
operation of these LEDs can be changed by use of the LED mode button  
on the switch front panel. When the LED mode button is pressed (pressed  
and held in), the operation of the RJ-45 LEDs changes to indicate 10/100  
Mbps speed and full/half duplex operation, respectively. The fiber port  
LEDs indicate Link (L) and Activity (A) for each of the ports. The fiber port  
LEDs are not affected by the LED mode button.  
Full Duplex Mode  
The full duplex mode of operation on a port can double the throughput of  
switch connections. This mode disables the collision detection portion of  
the Ethernet Carrier Sense Multiple Access with Collision Detection  
(CSMA/CD) protocol, allowing for two-way traffic. Full duplex is  
configurable using the Duplex Mode parameter in the Port Menu of the  
console menus or via SNMP.  
Flow Control  
Flow control allows you to manage network traffic during congestion  
periods and to prevent the loss of packets when port buffer thresholds are  
exceeded. Flow control also serves to deny access to additional traffic  
that could add to a congestion condition. The ELS100-24TXM switch  
supports flow control per the IEEE 802.3x standard. See Appendix C,  
“Flow Control,” for more information on this feature.  
Virtual LANs (VLANs)  
VLANs allow you to connect users to a specific LAN segment regardless  
of their physical location. The ELS100-24TXM switch supports tagged  
VLANs per the IEEE 802.1Q draft standard. With frame tagging, a short  
tag is appended to every frame that crosses the network backbone. The  
tag identifies which VLAN the frame belongs to. See Appendix D, “Virtual  
LANs,” for more information.  
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Class of Service  
Class of Service support allows you to assign a higher priority to selected  
traffic passing through the switch. The ELS100-24TXM switch supports  
Class of Service attributes per the IEEE 802.1p draft standard using a  
priority queuing mechanism. This feature ensures that traffic during  
congestion periods will not interfere with traffic assigned a higher priority.  
Traffic assigned a lower priority is subject to discard when memory is in  
short supply. See Appendix E, “Class of Service,” for more information.  
Application Examples  
The exploding popularity of the Internet and of corporate intranets, as well  
as new, high-bandwidth desktop applications, are driving the demand for  
Fast Ethernet. The increase in multimedia traffic and the need to support  
legacy protocols alongside new, data intensive applications is driving the  
need for network segmentation and traffic prioritization.  
The ELS100-24TXM switch is ideal for meeting the needs of today’s high  
performance networks. The switch’s low cost and high port count makes  
it attractive and affordable for dedicated 10/100Mbps connections to the  
desktop. In addition, extensive features, including redundant links, traffic  
Class of Service and VLAN capability, provide the management needed  
for the workgroup and local backbone.  
The following sections illustrate the ELS100-24TXM switch employed in  
application examples:  
Client/Server Network  
Local Backbone  
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Client/Server Network Application  
To improve workstation performance in a client/server environment, the  
ELS100-24TXM switch can be configured to provide 200 Mbps full duplex  
Fast Ethernet connections to servers by connecting each to a dedicated  
switch port (Figure 1-6). Users can be accommodated through  
connections to hubs, both at 10Mbps and 100Mbps speeds, through  
10Mbps switches with 100Mbps uplinks, or through direct connections.  
The fiber uplinks are available to connect the switch to a remote location,  
such as another building floor or a separate building.  
Figure 1-6. Client/Server Network Application  
12 Product Overview  
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Local Backbone Application  
The ELS100-24TXM switch can be used in a local backbone application,  
connecting network segments together and providing file-server access  
(Figure 1-6). Workgroup hubs are provided with a single connection to the  
switch while servers are put on dedicated 100 Mbps ports. Routers and  
other networking devices can connect off of the switched backbone as  
well. The fiber uplinks are available to connect the switch to a remote  
location, such as another building floor or a separate building.  
Figure 1-7. Local Backbone Application  
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2. INSTALLATION  
Inspecting Your Shipment  
When you receive the shipment of your switch, check the package  
contents and make sure you have the following items:  
ELS100-24TXM Fast Ethernet switch  
Fiber port protective plugs inserted into switch  
Mounting ears and mounting screws  
Power cord  
This document  
Site Requirements  
Before you install the switch, make sure the site meets the following  
requirements:  
Mounting  
Provide a flat table, wall or shelf surface, or an optional 19 in. (48.3  
cm) equipment rack.  
Use an EIA standard equipment rack that is grounded and physically  
secure.  
Power source  
Provide a power source within six feet (1.8 m) of the installation loca-  
tion. This source must provide 100 VAC to 240 VAC, and 50 Hz to 60  
Hz power, with a 100 VA minimum. Power specifications for the  
switch are shown in Appendix A, “Specifications.”  
Primary voltage selection within the above ranges is  
automatic and requires no user action.  
Environmental  
Install the ELS100-24TXM switch in a dry area, with adequate air cir-  
culation. Avoid placing the switch in direct sunlight or near other heat  
sources, such as hot-air vents. For temperature and humidity speci-  
fications, see Appendix A, “Specifications.”  
Ventilation  
Do not restrict airflow by covering or obstructing air inlets on the side  
of the switch or the rear panel internal air fan exits.  
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Mounting the Switch on a Table or Shelf  
Mount the switch on a table or shelf in a position which allows access to  
the front panel RJ-45 ports, visibility of the port LEDs, and access to the  
power cord. Make sure that the mounting surface can safely support the  
switch and that there is adequate space around the switch for ventilation  
and cooling.  
16 Installation  
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Mounting the Switch on a Wall  
The switch ships with two (2) multi-position mounting ears and four (4)  
mounting screws.  
The mounting screws are used to attach the mounting ears to  
the switch. Once the ears are attached to the switch, you will  
need to provide appropriate screws to mount the switch to the  
wall.  
Figure 2-1 shows the orientation of the mounting ears for attaching the  
ears to the switch for a wall mount application. Be sure that the wall  
surface can safely support the switch.  
Do the following:  
1. Mount one of the ears to the switch using two (2) of the supplied  
screws. Repeat this step for the other side of the switch.  
2. Mount the switch to the wall using appropriate screws.  
Figure 2-1. Mounting the Switch on a Wall  
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Mounting the Switch in a Rack  
The switch ships with two (2) multi-position mounting ears and four (4)  
mounting screws.  
The mounting screws are used to attach the mount-  
ing ears to the switch. Once the ears are attached to  
the switch, you will need to provide appropriate  
screws to mount the switch in a rack.  
Figure 2-2 shows the orientation of the mounting ears for attaching the  
ears to the switch for a rack mount application. Mount the switch with the  
front panel facing forward. Do the following:  
1. Mount one of the ears to the switch using two (2) of the supplied  
screws. Repeat this step for the other side of the switch.  
2. Slide the switch into the rack and align the holes in the rack mounting  
ears with the holes in the rack rails.  
3. Insert and tighten appropriate rack-mounting screws (not provided).  
Figure 2-2. Mounting the Switch in a Rack  
18 Installation  
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Installing a Fiber Uplink Module into the Switch  
The fiber uplink module option permits you to enable 100Base-FX fiber  
connections to the switch. A 2 port fiber module can be installed into the  
modular slot on the left side of the switch (Figure 2-3).  
To install the fiber module into the switch, do the following:  
1. Turn off power to the switch.  
2. Remove the blank metal plate from the left side of the switch by  
unscrewing the two mounting screws.  
3. While maintaining a firm grip on the fiber connectors, insert the fiber  
module card into the modular slot, with the module components  
facing upwards. Insert the module into the slot uniformly. There are  
no card guides. The connector on the fiber module mates with the  
connector inside the switch. Press firmly until the module is properly  
seated.  
Figure 2-3. Installing a Fiber Module into the Switch  
4. Position the mounting plate (shipped with the fiber module) over the  
port connectors and align the mounting plate hole with the modular  
port holes.  
5. Insert the 2 mounting screws and fasten.  
6. Turn on power to the switch.  
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Connecting a Terminal to the Console Port  
The console port is a serial RS-232 interface port that enables a  
connection to a terminal for performing switch monitoring and  
configuration functions. The terminal may be a PC or workstation running  
terminal emulation software, or a dumb terminal configured as a Data  
Terminal Equipment (DTE) connection. Alternatively, this port can be  
connected to an external modem to enable remote dial-in management.  
If you connect a terminal to the console port prior to powering the switch,  
you can observe the progress and results of the power-up diagnostics as  
the switch goes through its initialization process.  
The console port connector is configured as a female null modem  
connection using a female DB-9 (see Table A-1 for pinouts). A standard  
straight-through wired RS-232 cable is typically all that is needed to  
connect to this interface. Any cable connected to the console port must  
be shielded to comply with emissions regulations and requirements.  
To connect the ELS100-24TXM console port to a terminal, do the  
following:  
1. Connect a terminal to the console port using an interface cable  
(Figure 2-4).  
Figure 2-4. Connecting a Terminal to the Console Port  
2. Connect the male connector of the interface cable directly to the  
switch console port and tighten the captive retaining screws.  
3. Connect the other end of the interface cable to a terminal (in some  
instances, an adapter may be required to make this connection).  
4. From your terminal, start the terminal emulation program.  
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5. Configure the terminal to the following communication settings: 9600  
baud, no parity, 8 data bits, 1 stop bit, no hardware flow control,  
ASCII character set.  
Powering the Switch  
To supply power to the switch, do the following:  
1. Connect the power cord to the switch and to a grounded three-prong  
wall outlet (Figure 2-5). See Appendix A, “Power Cord Set  
Requirements,” for more information regarding specific international  
power cord requirements.  
Figure 2-5. Connecting the Power Cord to the Switch  
2. Turn on the power switch.  
The Power LED lights green (see Figure 1-1). If it does not, check to  
make sure that the power cable is plugged in correctly and that the  
power source is good.  
Power-Up  
When you turn the power on, the switch conducts a series of hardware  
and software tests to verify correct operation. If a terminal or computer is  
connected to the console port, the results of the tests are displayed on the  
screen. If you want to display the results of the tests after the switch has  
already been turned on, turn the power switch off and then back on.  
The switch performs two basic types of tests at power-up. During this  
time, the Test LED (see Figure 1-1) lights steady green. These tests are:  
Serial port  
The serial console port test is the first test performed. If the switch  
fails this test, no further tests are performed, and the console displays  
no information.  
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Memory  
Memory tests on the CPU RAM are performed after the serial port  
test. No results are displayed on the console.  
After these two tests are performed, the operational software of the switch  
is loaded. A series of more extensive diagnostic tests are then conducted  
during which the Test LED remains lit. The results of the tests are  
displayed on the terminal. If all tests pass, the Test LED turns off. When  
all tests are complete, the system is functional and the user interface is  
ready to receive commands at the console.  
Network Cable Requirements  
Copper  
Table 2-1 specifies the cable types and length constraints for the copper  
interfaces on the ELS100-24TXM.  
Table 2-1. Copper Cable Specifications  
Interface Type  
Cable Requirement  
Maximum Length  
10Base-T  
Category 3 or 5 Unshielded Twisted  
Pair (UTP)  
100m (328 ft.)  
100Base-TX  
Category 5 UTP  
100m (328 ft.)  
Fiber  
Table 2-2 specifies the fiber types and length constraints on the  
ELS100-24TXM.  
Table 2-2. Fiber Specifications  
Interface Type  
Fiber Type  
Fiber Diameter  
(microns)  
Maximum Length  
100Base-FX  
100Base-FX  
multi-mode  
single-mode  
62.5  
9
2,000m (6,560 ft.)  
20,000m (65,600 ft.)  
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10Base-T/100Base-TX Ports  
The 10Base-T/100Base-TX ports use RJ-45 connectors. Figure 2-6  
shows an RJ-45 connector being inserted into a port.  
Figure 2-6. Inserting an RJ-45 Connector into a Port  
The 10Base-T/100Base-TX ports interface to UTP cabling for connection  
to 10Base-T or 100Base-TX network segments or end-stations. These  
UTP connections meet the requirements of ISO 8877, specified by  
10Base-T, Section 14 of the IEEE 802.3 specification. The ports are wired  
with the MDI-X function implemented. Workstations or servers can be  
connected to the ELS100-24TXM switch using standard straight-through  
wired cables.  
For connections to hubs or other switches, a crossover cable may be  
necessary (refer to the “MDI/MDI-X Crossover Cable Wiring” section in  
Appendix A). See Table A-2 for 10Base-T/100Base-TX connector pin  
assignments.  
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100Base-FX Fiber Ports  
The 100Base-FX Fiber ports use SC connectors. Figure 2-7 shows an SC  
fiber connector being inserted into a fiber port on the ELS100-24TXM.  
Figure 2-7. Inserting an SC Fiber Connector into a Fiber Port  
Depending on the fiber uplink module employed (see Table 2-3), these  
ports support either multi-mode 62.5/125µm fiber or single-mode 9/  
125µm fiber. The 100Base-FX ports use SC fiber connectors. The SC  
fiber connectors are configured as a receive (RX)/transmit(TX) pair with  
the RX connector positioned on the left side of the port and the TX  
connector on the right side of the port.  
Fiber Uplink Modules  
Table 2-3 provides information for the three different 2 port fiber uplink  
modules (daughtercards) available for the ELS100-24TXM.  
Table 2-3. Fiber Uplink Modules  
Part Number  
Functions  
Description  
EPIM100-2F2  
100Base-FX-MM  
100Base-FX-MM  
2 port multimode (MM) fiber uplink module  
using SC fiber connectors.  
EPIM100-2F3  
EPIM100-2F4  
100Base-FX-SM  
100Base-FX-SM  
2 port singlemode (SM) fiber uplink module  
using SC fiber connectors.  
100Base-FX-SM  
100Base-FX-MM  
2 port (1 SM and 1 MM) fiber uplink module  
using SC fiber connectors.  
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3. ELS100-24TXM USER INTERFACE  
Overview  
When you have connected a terminal to the console port, or used Telnet  
to access the switch over the network, access is gained to the console  
menus. These menus allow you to reconfigure the switch from its factory  
default settings, as well as to monitor switch status and performance. The  
menus have a layout similar to the sample Main Menu shown in Figure 3-  
1. The information is divided into the following parts:  
Menu Identification (includes model number)  
Menu Name (includes access privileges)  
Selectable Items listed by letters  
Screen Prompt for menu selections and entry of field parameters,  
and Message Area for display of next entry option, parameters, or  
error messages.  
Menu ID  
Cabletron Systems ELS100-24TXM  
MAIN MENU  
Access Control: READ/WRITE  
Menu name  
a. System Configuration Menu  
b Switch Configuration Menu  
c. Port Menu  
Selectable  
items  
d. Switch Statistics Screen  
e. General Information Screen  
f. Download Software Menu  
g. Save Current Configuration  
h. Return to Default Configuration  
i. Logout  
j. Reset  
Screen prompt  
and message  
area  
Enter Selection:  
Figure 3-1. Sample Main Menu  
9032785  
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User Access  
There are two modes of access to the user interface: READ-ONLY and  
READ/WRITE. READ-ONLY access allows you to view switch  
information, but not modify any operating parameters. READ/WRITE  
access allows you to both read and modify switch information. You are  
required to login with a password before obtaining READ/WRITE access.  
If no password is entered (press only the [Enter] key), you are logged in  
with READ-ONLY access. No password is configured in the factory  
default settings, allowing full READ/WRITE access until a password is  
set.  
To use the console menus, do the following:  
1. Type the letter associated with the desired option.  
If the selected item is a submenu title, the submenu is displayed  
when you enter the letter.  
2. Enter the parameter requested by the screen prompt.  
If the selected item is a parameter, the system displays a prompt for the  
entry of a new parameter value. If the value entered is invalid, a beep  
sounds, or a message displays, requesting you to enter a valid value.  
26 ELS100-24TXM User Interface  
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Factory Defaults  
Table 3-1 lists the factory default settings for the switch configuration  
parameters. Each of these parameters can be changed via the console  
menus or Telnet.  
Table 3-1. Factory Default Settings  
Parameter  
Default Value  
Active Aging Time  
300  
Yes  
500000  
Yes  
32768  
No  
Auto-negotiation Enable  
Broadcast Cutoff Rate  
BootP/DHCP Enable  
Bridge Priority  
Class of Service Enable  
Class of Service Port Priority  
0
Class of Service Priority  
Threshold  
4
Flow Control Enable  
Forward Delay  
Full Duplex  
Hello Time  
No  
15  
Yes  
2
Max Age  
20  
Password  
<none>  
Path Cost  
10 for 100Mbps speed ports  
100 for 10Mbps speed ports  
Port Enable  
Yes  
128  
100  
No  
Port Priority  
Port Speed  
Port Mirroring Enable  
Screen Timeout  
0
SNMP Private Community Name  
SNMP Public Community Name  
Spanning Tree Protocol Enable  
Terminal Baud Rate  
Terminal Hardware Flow Control  
VLAN Enable  
private  
public  
No  
9600  
No  
No  
VLAN Port Type  
Access  
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Menu Hierarchy  
Figure 3-2 shows the ELS100-24TXM switch user interface menu  
hierarchy.  
SNMP Private Community Name  
SNMP Public Community Name  
Trap Destination #1-4  
SNMP Configuration Menu  
System Name  
System Location  
System Contact  
IP Address  
System  
Configuration  
Menu  
Community Name #1-4  
Subnet Mask  
Display Table  
Make Entry Static  
Add Static Entry  
Delete Static Entry  
Modify Static Entry  
Search by Port#  
Default Gateway  
BootP/DHCP Enable  
Screen Timeout (minutes)  
Password  
Terminal Baud Rate  
Search by MAC Address  
Switch  
Configuration  
Menu  
Forwarding Table Configuration Menu  
Spanning Tree Configuration Menu  
VLAN Configuration Menu  
Class of Service Configuration Menu  
Forwarding Table Aging Time (seconds)  
Broadcast Cutoff Rate  
Spanning Tree Protocol Enable  
Port Configuration Menu  
Hello Time (seconds)  
Forward Delay (seconds)  
Max Age (seconds)  
Port ID  
Port Name  
Path Cost  
Port Priority  
Port State  
Select Port  
Port Mirroring Enable  
Mirrored Port  
Mirroring Port  
Bridge Priority  
VLAN Enable  
VLAN Menu  
VLAN Port Menu  
ID  
ID  
Port Menu  
Port Name  
Enable Status  
Link Status  
Auto Negotiated Status  
Full Duplex Status  
Speed (10/100Mbps)  
Port Type  
VLAN Name  
Ports in VLAN  
VLAN Egress Ports  
Configure  
Class of Service Enable  
Priority Threshold  
Configure Port Priority  
Flow Control  
Configure  
Port ID  
Port Name  
Type  
Port Name  
Port Enable  
Flow Control Enable  
Auto-negotiation Enable  
Full Duplex  
Switch  
Statistics  
Screen  
Modify Port Type  
ID  
Transmitted  
Received  
Forwarded  
Filtered  
Port Speed  
Port ID  
Port Name  
Priority Default  
Configure  
Dropped  
Errored  
Switch Summary  
Port Statistics  
Frames Transmitted  
Frames Received  
Frames Forwarded  
Frames Filtered  
General  
Information  
Screen  
Frames Dropped  
Frames Errored  
Software Version  
Serial Number  
Base MAC Address  
Up Time (minutes)  
Power Up Count  
Port #n Statistics  
Download Software Menu  
Frames Transmitted  
Frames Received  
Collisions  
Late Collisions  
Frames Forwarded  
Frames Filtered  
Frames Dropped  
Broadcasts Transmitted  
Broadcasts Received  
Multicasts Transmitted  
Multicasts Received  
Bytes Transmitted  
CRC/Alignment Errors  
Undersized Frames  
Oversized Frames  
Fragments  
Jabbers  
64 Byte Frames  
65 to 127 Byte Frames  
128 to 255 Byte Frames  
256 to 511 Byte Frames  
512 to 1023 Byte Frames  
1024 to 1518 Byte Frames  
Save Current Configuration  
Return to Default Configuration  
Logout  
Bytes Received  
Pause Frames Transmitted  
Pause Frames Received  
Reset  
Figure 3-2. ELS100-24TXM User Interface Menu Hierarchy  
28 ELS100-24TXM User Interface  
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Main Menu  
The Main Menu is the first screen seen after successfully logging in to the  
system. Figure 3-3 shows the Main Menu and the accompanying table  
describes the Main Menu.  
MAIN MENU  
Access Control: READ/WRITE  
a. System Configuration Menu  
b Switch Configuration Menu  
c. Port Menu  
d. Switch Statistics Screen  
e. General Information Screen  
f. Download Software Menu  
g. Save Current Configuration  
h. Return to Default Configuration  
i. Logout  
j. Reset  
x. Previous Menu  
Enter Selection:  
Figure 3-3. Main Menu  
Selection  
Description  
System  
Configuration Menu  
Contains commands and parameters that reflect the global  
configuration of the switch related to management.  
Switch  
Configuration Menu  
Provides access to information and parameters affecting the  
function of the switch, i.e. the movement of packets through  
the switch. For example, you can configure Forwarding Ta-  
ble, Spanning Tree, and virtual LANs (VLANs).  
Port Menu  
Shows the configuration of the individual ports on the switch  
and allows you to modify switch port operation.  
Switch Statistics  
Screen  
Presents switch-level and port-level statistics.  
General Informa-  
tion Screen  
Displays the system software version, switch serial number,  
base MAC address, system up time and power-up count.  
Download Software  
Menu  
Contains parameters and commands for initiating a software  
download to upgrade the switch operating software.  
Save Current  
Configuration  
Saves current switch operating parameters to non-volatile  
memory.  
Return to Default  
Configuration  
Restores switch operating parameters to factory defaults.  
You must reset the switch for activate default parameters.  
Logout  
Logs out of the console interface. Once you logout, you must  
enter a password before you can access the console inter-  
face again.  
Reset  
Performs a software reset of the switch by restarting the sys-  
tem software and reloading all operating parameters.  
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System Configuration Menu  
The System Configuration Menu enables modification of system-level  
switch configuration parameters. Select a from the Main Menu to view the  
System Configuration Menu. Figure 3-4 shows the System Configuration  
Menu and the accompanying table describes the System Configuration  
Menu.  
SYSTEM CONFIGURATION  
Access Control: READ/WRITE  
a. SNMP Configuration Menu  
b System Name  
c. System Location  
d. System Contact  
e. IP Address  
000.000.000.000  
f. Subnet Mask  
000.000.000.000  
g. Default Gateway  
h. BootP/DHCP Enable  
i. Screen Timeout (minutes)  
j. Password  
k. Terminal Baud Rate  
l. Terminal Hardware Flow Control  
000.000.000.000  
Yes  
0
None  
9600  
No  
x. Previous Menu  
Enter Selection:  
Figure 3-4. System Configuration Menu  
Description  
Selection  
SNMP Configuration Menu  
System Name  
Menu for configuring SNMP-related parameters.  
The switch administrative name (1-36 character range).  
The physical switch location (1-36 character range).  
The switch contact person (1-36 character range).  
The IP address of the switch.  
System Location  
System Contact  
IP Address  
Subnet Mask  
Subnet mask associated with the switch IP address.  
Default Gateway  
The default gateway (or router) to which the switch sends  
IP packets destined for a different subnet.  
BootP/DHCP Enable  
Allows you to enable (Yes) or disable (No) the BootP and  
DHCP protocols for automatically configuring the  
switch’s IP address information.  
Screen Timeout (minutes)  
The duration of time before a serial console or Telnet  
session terminates due to user inactivity (0-65535 nu-  
meric range). A value of “0” means that the screen will  
not terminate at any time.  
Password  
Allows “read/write” access to the user interface, via the  
serial console or Telnet (1-10 character range).  
Terminal Baud Rate  
Serial console baud rate (2400, 9600 or 19200).  
Terminal Hardware Flow  
Control  
Allows you to enable (Yes) or disable (No) hardware flow  
control on serial console interface. Signals DTR, RTS  
and CTS are used for this purpose. Flow control should  
be enabled if using external modem.  
30 ELS100-24TXM User Interface  
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SNMP Configuration Menu  
The SNMP Configuration Menu allows you to modify SNMP-related  
configuration parameters. Select a from the System Configuration Menu  
to view the SNMP Configuration Menu. Figure 3-5 shows the SNMP  
Configuration Menu and accompanying table describes the SNMP  
Configuration Menu.  
SNMP CONFIGURATION  
Access Control: READ/WRITE  
private  
public  
000.000.000.000  
public  
000.000.000.000  
public  
000.000.000.000  
public  
000.000.000.000  
public  
a. SNMP Private Community Name  
b. SNMP Public Community Name  
c. Trap Destination #1  
d. Community Name #1  
e. Trap Destination #2  
f. Community Name #2  
g. Trap Destination #3  
h. Community Name #3  
i. Trap Destination #4  
j. Community Name #4  
x. Previous Menu  
Enter Selection:  
Figure 3-5. SNMP Configuration Menu  
Description  
Selection  
SNMP Private  
Community Name  
The community name for read/write SNMP access to the  
device (1-10 character range; the default name is: “private”).  
SNMP Public  
Community Name  
The community name for read only SNMP access to the de-  
vice (1-10 character range; the default name is: “public”).  
Trap Destination #1  
Community Name #1  
Trap Destination #2  
Community Name #2  
Trap Destination #3  
Community Name #3  
Trap Destination #4  
Community Name #4  
The IP address of trap destination #1 where SNMP trap mes-  
sages are forwarded.  
The SNMP community name to use for traps forwarded to trap  
destination #1.  
The IP address of trap destination #2 where SNMP trap mes-  
sages are forwarded.  
The SNMP community name to use for traps forwarded to trap  
destination #2.  
The IP address of trap destination #3 where SNMP trap mes-  
sages are forwarded.  
The SNMP community name to use for traps forwarded to trap  
destination #3.  
The IP address of trap destination #4 where SNMP trap mes-  
sages are forwarded.  
The SNMP community name to use for traps forwarded to trap  
destination #4.  
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Switch Configuration Menu  
The Switch Configuration Menu allows you to modify switching-related  
configuration parameters. Select b from the Main Menu to view the Switch  
Configuration Menu. Figure 3-6 shows the Switch Configuration Menu  
and the accompanying table describes the Switch Configuration Menu.  
SWITCH CONFIGURATION  
Access Control: READ/WRITE  
a. Forwarding Table Configuration Menu  
b. Spanning Tree Configuration Menu  
c. VLAN Configuration Menu  
d. Class of Service Configuration Menu  
e. Forwarding Table Aging Time(seconds) 300  
f. Broadcast Cutoff Rate  
g. Port Mirroring Enable  
h. Mirrored Port  
500000  
No  
2
i. Mirroring Port  
1
j. Transmit Data Mirror Enable  
k. Receive Data Mirror Enable  
Yes  
No  
x. Previous Menu  
Enter Selection:  
Figure 3-6. Switch Configuration Menu  
Description  
Selection  
Forwarding Table  
Menu for configuring the switch forwarding table.  
Configuration Menu  
Spanning Tree Configuration  
Menu  
Menu for configuring the switch Spanning Tree  
operation.  
VLAN Configuration Menu  
Menu for configuring the VLAN operation of the switch.  
Menu for configuring Class of Service for the switch.  
Class of Service Configuration  
Menu  
Forwarding Table Aging Time  
Time in seconds until entries in the filter table are aged  
out if not accessed (10-1,000,000 second range).  
Broadcast Cutoff Rate  
Per second rate past which broadcast and destination  
unknown unicast frames are not flooded on each  
group of 8 ports on the switch (100-500,000 frames per  
second range).  
Port Mirroring Enable  
Allows you to enable (Yes) or disable (No) port mirror-  
ing.  
Mirrored Port  
The source port for the data to be mirrored.  
The destination port for the data to be mirrored.  
Mirroring Port  
Transmit Data Mirror Enable *  
Allows you to enable (Yes) or disable (No) the mirror-  
ing of data transmitted out the mirrored port.  
Receive Data Mirror Enable *  
Allows you to enable (Yes) or disable (No) the mirror-  
ing of data received by the mirrored port.  
* Only one of these options can be enabled at any given time. Changing the setting  
of one of these options automatically changes the setting of the other option.  
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Forwarding Table Configuration Menu  
The Forwarding Table Configuration Menu allows you to view and modify  
forwarding table parameters. The MAC address of each forwarding table  
entry is displayed along with its type, disposition, and associated port  
number. Select a from the Switch Configuration Menu to view the  
Forwarding Table Configuration Menu. Figure 3-7 shows the Forwarding  
Table Configuration Menu and the accompanying table describes the  
Forwarding Table Configuration Menu.  
FORWARDING TABLE CONFIGURATION  
Access Control: READ/WRITE  
MAC ADDRESS  
TYPE  
DISPOSITION  
PORT ID  
PORT NAME  
---------------------------------------------------------------------------------------------------------------------  
0a0a0a0a0a0b  
0a0a0a0a0a0b  
0a0a0a0a0a0c  
0a0a0a0a0a0d  
0a0a0a0a0a0e  
0a0a0a0a0a0f  
0a0a0a0a0a10  
0a0a0a0a0a11  
DYNAMIC  
DYNAMIC  
DYNAMIC  
DYNAMIC  
DYNAMIC  
DYNAMIC  
DYNAMIC  
DYNAMIC  
FORWARD  
FORWARD  
FORWARD  
FORWARD  
FORWARD  
FORWARD  
FORWARD  
FORWARD  
1
2
3
4
5
6
7
8
n. Next Page  
p. Previous Page  
f. First Page  
l. Last Page  
a. Display Table  
b. Make Entry Static  
c. Add Static Entry d. Delete Static Entry  
e. Modify Static Entry  
s. Search by Port # m. Search by MAC Address x. Previous Menu  
Enter Selection:  
Figure 3-7. Forwarding Table Configuration Menu  
Field  
Description  
MAC Address  
Type  
MAC address for the listed port.  
Displays the type of address entry: system, dynamic or stat-  
ic.  
Disposition  
Port ID  
Displays disposition of the address entry: local, forward or  
discard.  
Displays the port number associated with the MAC address  
entry.  
Port Name  
Selection  
Displays the administrative name assigned to the port.  
Description  
Next Page  
Previous Page  
First Page  
Last Page  
Displays the next page of the forwarding table.  
Displays the previous page of the forwarding table.  
Displays the first page (top) of the forwarding table.  
Displays the last page of the forwarding table.  
continued on next page  
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Selection  
Description  
Display Table  
Redisplays the forwarding table.  
Make Entry Static  
Add Static Entry  
Delete Static Entry  
Modify Static Entry  
Search by Port #  
Makes a dynamic entry in the forwarding table static.  
Adds a static entry to the forwarding table.  
Deletes a static entry from the forwarding table.  
Modifies a static entry from the forwarding table.  
Performs a search by port number and posts the search re-  
sults at the top of the screen.  
Search by MAC Ad-  
dress  
Performs a search by MAC Address and posts the search re-  
sults at the top of the screen.  
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Spanning Tree Configuration Menu  
The Spanning Tree Configuration Menu allows you to view and modify  
Spanning Tree parameters. Select b from the Switch Configuration Menu  
to view the Spanning Tree Configuration Menu. A letter identifies  
selections that can be modified. All other fields are read-only. Figure 3-8  
shows the Spanning Tree Configuration Menu and the accompanying  
table describes the Spanning Tree Configuration Menu.  
SPANNING TREE CONFIGURATION  
Access Control: READ/WRITE  
32768-000000000000  
Bridge ID  
Designated Root  
Root Path Cost  
Root Port  
0
NO PORT  
0
Topology Change Count  
a. Spanning Tree Protocol Enable  
b. Port Configuration Menu  
c. Hello Time (seconds)  
d. Forward Delay (seconds)  
e. Max Age (seconds)  
No  
2
15  
20  
f. Bridge Priority  
32768  
x. Previous Menu  
Enter Selection:  
Figure 3-8. Spanning Tree Configuration Menu  
Field  
Description  
Bridge ID  
A unique identifier for the bridge (switch) in the Span-  
ning Tree. The ID is a combination of the bridge priority  
and port 1 MAC address.  
Designated Root  
The bridge in the Spanning Tree with the lowest Bridge  
ID value, designated as the root bridge.  
Root Path Cost  
Root Port  
The cost of the path to the root bridge.  
The port identifier of the port that offers the lowest cost  
path to the root bridge.  
Topology Change Count  
The count of the number of times the network topology  
has changed from a Spanning Tree reconfiguration.  
continued on next page  
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Selection  
Description  
Spanning Tree Protocol  
Enable  
Allows you to enable (Yes) or disable (No) the global  
Spanning Tree operation on the switch.  
Port Configuration Menu  
Hello Time (seconds)  
Forward Delay (seconds)  
Max Age (seconds)  
Bridge Priority  
Provides access to the Spanning Tree Port Configura-  
tion Menu.  
The time interval between the sending of Configuration  
BPDUs by the bridge, if it is root (1-10 second range).  
The time interval delay before a port transfers into the  
forwarding state, if it is root (4-30 second range).  
The maximum age of received protocol information be-  
fore it is discarded (6-40 second range).  
A relative priority of bridges, with the lowest value bridge  
ID indicating the highest priority (0-65535 range).  
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Spanning Tree Port Configuration Menu  
The Spanning Tree Port Configuration Menu allows you to view Spanning  
Tree Configuration information for all of the ports in a table format. Select  
b from the Spanning Tree Configuration Menu to view the Spanning Tree  
Port Configuration Menu. Figure 3-9 shows the Spanning Tree Port  
Configuration Menu and the accompanying table describes the Spanning  
Tree Port Configuration Menu.  
SPANNING TREE PORT CONFIGURATION  
PORT ID PORT NAME PATH COST  
Access Control: READ/WRITE  
PORT PRIORITY PORT STATE  
---------------------------------------------------------------------------------------------------------  
1
2
3
4
5
6
7
8
9
10  
10  
10  
10  
10  
10  
10  
10  
10  
10  
128  
128  
128  
128  
128  
128  
128  
128  
128  
128  
FORWARDING  
FORWARDING  
FORWARDING  
FORWARDING  
FORWARDING  
FORWARDING  
FORWARDING  
FORWARDING  
FORWARDING  
FORWARDING  
10  
n. Next Page  
a. Select Port  
Enter Selection:  
p. Previous Page  
r. Refresh  
f. First Page  
l. Last Page  
x. Previous Menu  
Figure 3-9. Spanning Tree Port Configuration Menu  
Field  
Description  
Port ID  
A unique identifier for a port on the bridge (switch).  
The administrative name assigned to the port.  
Port Name  
Path Cost  
The contribution of the path through this port, when it is the root port,  
to the total path cost from this bridge to the root bridge. 10 for 100Mbps  
ports, 100 for 10Mbps ports.  
Port Priority  
Port State  
The relative priority of the port on the bridge.  
The current Spanning Tree state of the port on the bridge, either dis-  
abled, listening, learning, forwarding, or blocking.  
Selection  
Description  
Next Page  
Displays the next page of the table.  
Previous Page  
First Page  
Displays the previous page of the table.  
Displays the first page (top) of the table.  
Displays the last page of the table.  
Last Page  
Select Port  
Allows you to enter a port number to view and modify port parameters  
in the Spanning Tree Port #n Configuration Menu.  
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Spanning Tree Port #n Configuration Menu  
The Spanning Tree Port #n Configuration Menu allows you to view  
Spanning Tree Port Configuration information for an individual port.  
Select a from the Spanning Tree Port Configuration Menu to view the  
Spanning Tree Port #n Configuration Menu. Figure 3-10 shows the  
Spanning Tree Port #n Configuration Menu and the accompanying table  
describes the Spanning Tree Port #n Configuration Menu. The “Port #n”  
designation represents the specific port number for configuration.  
SPANNING TREE PORT #1 CONFIGURATION Access Control: READ/WRITE  
Port State  
DISABLED  
MAC Address  
000000000000  
Designated Cost  
Designated Port  
Designated Root  
Designated Bridge  
0
0
a. Path Cost  
10  
b. Port Priority  
32768  
x. Previous Menu  
Enter Selection:  
Figure 3-10. Spanning Tree Port Configuration Menu  
Field  
Description  
Port State  
The current Spanning Tree state of the port, either disabled,  
listening, learning, forwarding, or blocking.  
MAC Address  
The MAC address of the port.  
Designated Cost  
The cost of the path to the Root offered by the designated  
port for the LAN associated with the port.  
Designated Port  
Designated Root  
Designated Bridge  
The Port ID of the port believed to be the designated port for  
the LAN associated with the port.  
The Bridge ID of the bridge recorded as the Root for the LAN  
associated with the port.  
The Bridge ID of the bridge believed to be the designated  
bridge for the LAN associated with the port.  
Selection  
Description  
Path Cost  
The contribution of the path through this port, when it is the  
root port, to the total path cost from this bridge to the root  
bridge (1-65535 range).  
Port Priority  
The relative priority of the port on the bridge (0-255 range).  
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VLAN Configuration Menu  
The VLAN Configuration Menu allows you to configure the operation of  
Virtual LANs (VLANs) in the switch. Select c from the Switch  
Configuration Menu to view the VLAN Configuration Menu. Figure 3-11  
shows the VLAN Configuration Menu and the accompanying table  
describes the VLAN Configuration Menu. See Appendix D, “Virtual LANs  
(VLANs)” for more information about this feature.  
VLAN CONFIGURATION  
Access Control: READ/WRITE  
a. VLAN Enable  
b. VLAN Menu  
No  
c. VLAN Port Menu  
x. Previous Menu  
Enter Selection:  
Figure 3-11. VLAN Configuration Menu  
Selection  
Description  
VLAN Enable  
Allows you to enable (Yes) or disable (No) the global VLAN  
operation of the switch.  
VLAN Menu  
Allows you to open the VLAN Menu.  
VLAN Port Menu  
Menu for configuring VLAN information per port.  
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VLAN Menu  
The VLAN Menu displays the configuration of VLANs in the switch and  
allows access to the VLAN #n Configuration Menu to create and configure  
VLANs. Select b from the VLAN Configuration Menu to view the VLAN  
Menu. Figure 3-12 shows the VLAN Menu and the accompanying table  
describes the VLAN Menu.  
VLAN MENU  
Access Control: READ/WRITE  
PORTS IN VLAN VLAN EGRESS PORTS  
ID VLAN NAME  
-------------------------------------------------------------------------------------------------------  
1 default 1-24 None  
c. Configure d. Delete x. Previous Menu  
Enter Selection:  
Figure 3-12. VLAN Menu  
Field  
Description  
ID  
The identification number of the VLAN (1-4 character range).  
VLAN Name  
The administrative name assigned to the VLAN (1-14 charac-  
ter range; entering a VLAN name is not required).  
Ports in VLAN  
The ports assigned to the VLAN.  
VLAN Egress Ports  
The egress (exit) ports which link the ELS100-24TXM to other  
devices which also include members of the same VLAN.  
Selection  
Description  
Configure  
Allows you to configure an existing VLAN listed in the VLAN  
table, create a new VLAN (1-4094 numerical range), and to  
open the VLAN #n Configuration Menu.  
Delete  
Allows you to delete a specific VLAN.  
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VLAN #n Configuration Menu  
The VLAN #n Configuration Menu allows you to configure a name for a  
specific VLAN, add or remove a port in the VLAN, and add or remove an  
egress port in the VLAN. Select c from the VLAN Menu to view the VLAN  
#n Configuration Menu. Figure 3-13 shows the VLAN #n Configuration  
Menu and the accompanying table describes the VLAN #n Configuration  
Menu.  
The designation “#n” represents the number of the spe-  
cific VLAN to be configured.  
When configuring ports using the Ports in VLAN parame-  
ter, they will be moved to that selected VLAN, and auto-  
matically removed from their previous VLAN.  
VLAN #n CONFIGURATION  
Access Control: READ/WRITE  
Ports in VLAN  
VLAN Egress Ports  
1-24  
None  
a. VLAN Name  
default  
b. Add Port in VLAN  
c. Remove Port In VLAN  
d. Add VLAN Egress Port  
e. Remove VLAN Egress Port  
x. Previous Menu  
Enter Selection:  
Figure 3-13. VLAN #n Configuration Menu  
Field  
Description  
Ports in VLAN  
Lists the ports in the specific VLAN.  
VLAN Egress Ports  
Selection  
Lists the VLAN Egress Ports for the specific VLAN.  
Description  
VLAN Name  
Allows you to enter an administrative name for the  
VLAN (1-14 character range; entering a VLAN name is  
not required).  
Add Port in VLAN  
Allows you to enter a port in the VLAN.  
Allows you to remove a port in the VLAN.  
Allows you to add a VLAN Egress Port.  
Allows you to remove a VLAN Egress Port.  
Remove Port in VLAN  
Add VLAN Egress Port  
Remove VLAN Egress Port  
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VLAN Port Menu  
The VLAN Port Menu displays a table of VLAN configuration information  
on a per port basis and allows you to modify the VLAN Port Type. Select  
c from the VLAN Configuration Menu to view the VLAN Port Menu. Figure  
3-14 shows the VLAN Port Menu and the accompanying table describes  
the VLAN Port Menu.  
VLAN PORT MENU  
Access Control: READ/WRITE  
PORT ID  
PORT NAME  
TYPE  
---------------------------------------------------------------------------------------------------------  
1
2
3
4
5
6
7
8
9
ACCESS  
ACCESS  
ACCESS  
ACCESS  
ACCESS  
ACCESS  
ACCESS  
ACCESS  
ACCESS  
ACCESS  
10  
n. Next Page  
p. Previous Page  
f. First Page  
l. Last Page  
a. Modify Port Type  
Enter Selection:  
x. Previous Menu  
Figure 3-14. VLAN Port Configuration Menu  
Field  
Description  
Port ID  
Port Name  
Type  
The number assigned to the port.  
The administrative name assigned to the port  
The VLAN type for each port (either Hybrid or Access). Hybrid  
ports accept tagged and non-tagged frames while Access ports  
only allow non-tagged frames.  
Selection  
Description  
Next Page  
Displays the next page of the table.  
Displays the previous page of the table.  
Displays the first page of the table.  
Displays the last page of the table.  
Allows you to modify the port type (either Hybrid or Access).  
Previous Page  
First Page  
Last Page  
Modify Port Type  
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Class of Service Configuration Menu  
The Class of Service Configuration Menu allows you to configure Class of  
Service settings for the system as well as to set the Class of Service for  
VLAN tagged frames. Select d from the Switch Configuration Menu to  
view the Class of Service Configuration Menu. Figure 3-15 shows the  
Class of Service Configuration Menu and the accompanying table  
describes the Class of Service Configuration Menu.  
CLASS OF SERVICE CONFIGURATION  
Access Control: READ/WRITE  
a. Class of Service Enable  
b. Priority Threshold  
No  
4
c. Configure Port Priority  
x. Previous Menu  
Enter Selection:  
Figure 3-15. Class of Service Configuration Menu  
Selection  
Description  
Class of Service  
Enable  
Allows you to enable (Yes) or disable (No) Class of Service  
operation for the system.  
Priority Threshold  
Allows you to enter the global priority threshold level. The  
configurable range is 0-7 (0=low, 7=high).  
VLAN tagged frames with a priority level below this threshold  
level will be assigned normal priority level through the switch.  
VLAN tagged frames with a priority level equal to or greater  
than this threshold level will be assigned high priority through  
the switch.  
Configure Port Priority  
Allows you to open the Port Priority Menu for configuring  
Class of Service information per port.  
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Port Priority Menu  
The Port Priority Menu allows you to modify and display a table which  
shows Class of Service configuration information on a per port basis.  
Select c from the Class of Service Configuration Menu to view the Port  
Priority Configuration Menu. Figure 3-16 shows the Port Priority  
Configuration Menu and the accompanying table describes the Port  
Priority Configuration Menu.  
PORT PRIORITY  
Access Control: READ/WRITE  
PRIORITY DEFAULT  
PORT ID PORT NAME  
-----------------------------------------------------------------------------------------------------------  
1
2
3
4
5
6
7
8
9
0
0
0
0
0
0
0
0
0
0
10  
n. Next Page  
c. Configure  
p. Previous Page  
x. Previous Menu  
f. First Page  
l. Last Page  
Enter Selection:  
Figure 3-16. Port Priority Configuration Menu  
Field  
Description  
Port ID  
Port Name  
The port number assigned to the port.  
The administrative name assigned to the port (1-14 character  
range).  
Priority Default  
The priority level assigned to non-tagged frames entering the  
associated port. The configurable range is 0-7 (0=low, 7=high).  
This value, compared to the Priority Threshold Value, deter-  
mines the priority level assigned to all non-tagged frames.  
Selection  
Next Page  
Previous Page  
First Page  
Last Page  
Configure  
Description  
Displays the next page of the table.  
Displays the previous page of the table.  
Displays the first page of the table.  
Displays the last page of the table.  
Allows you to configure the priority default for a specific port (0-  
7 number range).  
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Port Menu  
The Port Menu allows you to display information for each port in a table  
format, as well as to access the Port Configuration Menu. You can also  
refresh the screen information. Select c from the Main Menu to view the  
Port Menu. Figure 3-17 shows the Port Menu and the accompanying table  
describes the Port Menu.  
PORT MENU  
Access Control: READ/WRITE  
LINK  
AUTO  
FULL  
FLOW  
ID PORT NAME ENABLED  
STATUS  
NEGOTIATED DUPLEX SPEED TYPE CONTROL  
---------------------------------------------------------------------------------------------------------------------------------------  
1
2
3
4
5
6
7
8
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
CONNECTED  
No  
No  
No  
No  
No  
No  
No  
No  
No  
No  
No  
No  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
100 100FX-MM No  
100 100FX-MM No  
100 100TX  
100 100TX  
100 100TX  
100 100TX  
100 100TX  
100 100TX  
100 100TX  
100 100TX  
100 100TX  
100 100TX  
No  
No  
No  
No  
No  
No  
No  
No  
No  
No  
9
10  
11  
12  
n. Next Page  
p. Previous Page  
c. Configure  
f. First Page  
x. Previous Menu  
l. Last Page  
r. Refresh  
Enter Selection:  
Figure 3-17. Port Menu  
Field  
ID  
Description  
The number assigned to the port.  
Port Name  
Enabled  
Link Status  
Auto  
Negotiated  
Full Duplex  
Speed  
The administrative name assigned to the port (1-14 character range).  
The current “enabled” state of the port, either “Yes” or “No.”  
The current link state of the port, either “Connected” or “Disconnected.”  
The current state of auto-negotiation for the port, whether or not it has  
completed auto-negotiation, either “Yes” or “No”.  
The current full duplex state of the port, either “Yes” or “No.”  
The current speed of the port, either 10Mbps or 100Mbps.  
Current connection type: 10T=10Base-T, 100T=100Base-TX;  
100FX-MM=100Base-FX multi-mode fiber, 100FX-SM=100Base-FX  
single-mode fiber.  
Port Type  
Flow Control  
Selection  
Next Page  
Previous Page  
First Page  
Last Page  
Refresh  
The current enable/disable flow control port state, either “Yes” or “No.”  
Description  
Displays the next page of the table.  
Displays the previous page of the table.  
Displays the first page (top) of the table.  
Displays the last page of the table.  
Refreshes the screen to reflect latest system conditions.  
Opens up the Port Configuration Menu. From this menu you can  
configure an individual port or multiple ports (See Section 4).  
Configure  
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Port Configuration Menu  
The Port Configuration Menu allows you to configure port settings for a  
specific port. Select c from the Port Menu to view the Port Configuration  
Menu. Figure 3-18 shows the Port Configuration Menu and the  
accompanying table describes the Port Configuration Menu.  
PORTS 1-5 CONFIGURATION  
Port Name  
Access Control: READ/WRITE  
a
b. Port Enable  
Yes  
c. Flow Control Enable  
d. Auto-negotiation Enable  
e. Full Duplex  
No  
No  
Yes  
100  
f. Port Speed  
x. Previous Menu  
Enter Selection:  
Figure 3-18. Port Configuration Menu  
Description  
Selection  
Port Name  
Allows you to assign an administrative name to the port (1-14  
character range).  
Port Enable  
Allows you to enable (Yes) or disable (No) the port(s).  
Flow Control Enable  
Allows you to enable (Yes) or disable (No) flow control on the  
port(s).  
Auto-negotiation  
Enable*  
Allows you to enable (Yes) or disable (No) the auto-negotiation  
mode for the port(s).  
If Auto-negotiation Enable is set to “No,” the Full Duplex and  
Port Speed fields display and are eligible for configuration.  
If Auto-negotiation Enable is set to “Yes,” the Full Duplex and  
Port Speed fields disappear and the system automatically man-  
ages these functions.  
Full Duplex*  
Port Speed*  
Allows you to enable (Yes) or disable (No) the full duplex mode  
for the port(s).  
Allows you to set the speed (10 or 100Mbps) for the port(s).  
* These parameters are not configurable for 100Base-FX ports, which only operate  
in full duplex mode and at 100Mbps speed.  
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Switch Statistics Screen  
The Switch Statistics Screen provides a summary display of port-level  
statistics, and provides access to the Port Statistics screens. You can also  
clear or refresh the statistics. Select d from the Main Menu to view the  
Switch Statistics Screen. Figure 3-19 shows the Switch Statistics Screen  
and the accompanying table describes the Switch Statistics Screen.  
SWITCH STATISTICS  
Access Control: READ/WRITE  
ID TRANSMITTED RECEIVED FORWARDED FILTERED DROPPED ERRORED  
---------------------------------------------------------------------------------------------------------------------------  
1
2
3
4
5
6
7
8
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
9
10  
n. Next Page  
p. Previous Page  
f. First Page  
l. Last Page  
s. Switch Summary  
d. Port Statistics  
x. Previous Menu  
r. Refresh  
c. Clear  
Enter Selection:  
Figure 3-19. Switch Statistics Screen  
Field  
Description  
ID  
The number assigned to the port.  
Number of frames transmitted out the port.  
Number of frames received on the port.  
Number of frames forwarded through the port.  
Number of frames filtered on the port.  
Transmitted  
Received  
Forwarded  
Filtered  
Dropped  
Number of frames received on the port that were dropped by the  
switch due to lack of resources.  
Errored  
Number of errored frames received on the port.  
Description  
Selection  
Next Page  
Previous Page  
First Page  
Last Page  
Switch Summary  
Port Statistics  
Refresh  
Displays the next page of the table.  
Displays the previous page of the table.  
Displays the first page of the table.  
Displays the last page of the table.  
Allows you to open the Switch Summary Screen.  
Allows you to open the Port Statistics Screen.  
Refreshes switch statistics.  
Clear  
Clears (or sets to zero) switch statistics.  
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Switch Summary Screen  
The Switch Summary Screen allows you to display sum total statistics for  
all ports of the switch. You can also clear or refresh the statistics. Select  
s from the Switch Statistics Screen to view the Switch Summary screen.  
Figure 3-20 shows the Switch Summary Screen and the accompanying  
table describes the Switch Summary Screen.  
SWITCH SUMMARY  
Access Control: READ/WRITE  
Frames Transmitted  
Frames Received  
Frames Forwarded  
Frames Filtered  
Frames Dropped  
Frames Errored  
0
0
0
0
0
0
r. Refresh  
c. Clear  
x. Previous Menu  
Enter Selection:  
Figure 3-20. Switch Summary Screen  
Field  
Description  
Frames Transmitted  
Frames Received  
Frames Forwarded  
Frames Filtered  
Frames Dropped  
Total number of frames transmitted out all ports.  
Total number of frames received on all ports.  
Total number of frames forwarded through the switch.  
Total number of frames filtered on all ports.  
Total number of frames dropped by the switch due to lack of  
resources.  
Frames Errored  
Selection  
Refresh  
Total number of errored frames received from all ports.  
Description  
Refreshes switch summary statistics.  
Clears (or sets to zero) switch summary statistics.  
Clear  
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Port Statistics Screen  
The Port Statistics Screen allows you to display statistics for each port on  
the switch. Many of these statistics correspond to the Statistics group of  
RMON. You can also refresh or clear the statistics. Select s from the  
Switch Statistics Screen to view the Port Statistics screen. Figure 3-21  
shows the Port Statistics Screen and the accompanying table describes  
the Port Statistics Screen.  
PORT 1 STATISTICS  
Access Control: READ/WRITE  
Collisions 0  
Frames Transmitted  
Frames Received  
Frames Forwarded  
Frames Filtered  
0
0
0
0
0
0
0
0
0
0
0
0
0
Late Collisions  
0
0
0
0
0
0
0
0
0
0
0
0
CRC/Alignment Errors  
Undersized Frames  
Oversized Frames  
Fragments  
Frames Dropped  
Broadcasts Transmitted  
Broadcasts Received  
Multicasts Transmitted  
Multicasts Received  
Bytes Transmitted  
Bytes Received  
Pause Frames Transmitted  
Pause Frames Received  
Jabbers  
64 Byte Frames  
65 to 127 Byte Frames  
128 to 255 Byte Frames  
256 to 511 Byte Frames  
512 to 1023 Byte Frames  
1024 to 1518 Byte Frames  
r. Refresh  
c. Clear  
x. Previous Menu  
Enter Selection:  
Figure 3-21. Port Statistics Screen  
Description  
Field  
Frames Transmitted  
Frames Received  
Frames Forwarded  
Total number of frames transmitted on the port.  
Total number of frames received on the port.  
Total number of frames received on the port which were  
forwarded to other ports.  
Frames Filtered  
Frames Dropped  
Total number of frames received on the port which were  
filtered.  
Total number of frames received on the port which were  
dropped by the switch due to lack of resources.  
Broadcasts Transmitted  
Broadcasts Received  
Total number of broadcast frames transmitted on the port.  
Total number of broadcast frames received on the port.  
continued on next page  
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Field  
Description  
Multicasts Transmitted  
Multicasts Received  
Bytes Transmitted  
Bytes Received  
Total number of multicast frames transmitted on the port.  
Total number of multicast frames received on the port.  
Total number of bytes transmitted on the port.  
Total number of bytes received on the port.  
Pause Frames Transmitted Total number of flow control pause frames transmitted on  
the port.  
Pause Frames Received  
Total number of flow control pause frames received on the  
port.  
Collisions  
Total number of collisions detected on the port.  
Total number of late collisions detected on the port.  
Late Collisions  
CRC/Alignment Errors  
Total number of frames received on the port which had ei-  
ther a CRC or an alignment error.  
Undersized Frames  
Oversized Frames  
Fragments  
Total number of frames received on the port which were  
undersized.  
Total number of frames received on the port which were  
oversized.  
Total number of frames received on the port which were  
fragments.  
Jabbers  
Total number of frames received on the port which were  
jabbers.  
64 Byte Frames  
Total number of frames received and transmitted on the  
port which were 64 bytes in length.  
65 to 127 Byte Frames  
128 to 255 Byte Frames  
256 to 511 Byte Frames  
512 to 1023 Byte Frames  
1024 to 1518 Byte Frames  
Total number of frames received and transmitted on the  
port which were from 65 to 127 bytes in length.  
Total number of frames received and transmitted on the  
port which were from 128 to 255 bytes in length.  
Total number of frames received and transmitted on the  
port which were from 256 to 511 bytes in length.  
Total number of frames received and transmitted on the  
port which were from 512 to 1023 bytes in length.  
Total number of frames received and transmitted on the  
port which were from 1024 to 1518 bytes in length.  
Selection  
Refresh  
Clear  
Description  
Refreshes port statistics.  
Clears (or sets to zero) port statistics.  
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General Information Screen  
The General Information Screen allows you to view general system  
information. Select e from the Main Menu to view the General Information  
Screen. Figure 3-22 shows the General Information Screen and the  
accompanying table describes the General Information Screen.  
GENERAL INFORMATION  
Access Control: READ/WRITE  
1.00  
Software Version  
Serial Number  
100  
Base MAC Address  
Up Time(minutes)  
Power Up Count  
00c0ba000000  
12  
1
x. Previous Menu  
Enter Selection:  
Figure 3-22. General Information Screen  
Field  
Description  
Software Version  
The version of system software currently operating  
on the switch.  
Serial Number  
The serial number of the switch.  
Base MAC Address  
The base MAC address of the switch (port 1 ad-  
dress).  
Up Time (minutes)  
Power Up Count  
The number of minutes the switch has been oper-  
ational since the last power cycle or reset.  
The number of times the system has powered up  
or been reset since the switch was originally  
shipped from the factory.  
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Download Software Menu  
The Download Software Menu allows you to set up and initiate a software  
download. Select f from the Main Menu to view the Download Software  
Menu. Figure 3-23 shows the Download Software Menu and the  
accompanying table describes the Download Software Menu.  
DOWNLOAD SOFTWARE  
Access Control: READ/WRITE  
a. TFTP Server IP Address  
b. TFTP File Name  
1.2.3.4  
c. Start TFTP Download  
d. Start XMODEM Download  
x. Previous Menu  
Enter Selection:  
Figure 3-23. Download Software Menu  
Selection  
Description  
TFTP Server IP Address  
TFTP File Name  
The IP address of the TFTP server.  
The file name to be downloaded from the TFTP server  
(maximum of 80 characters).  
Start TFTP Download  
Starts a TFTP download using TFTP Server IP Address  
and TFTP File Name information.  
Start XMODEM Download  
Starts an XMODEM (serial) download.  
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Save Current Configuration  
The Save Current Configuration screen ensures that all changes made to  
the ELS100-24TXM switch via the console menus will be stored in the  
event of power outages or power cycles.  
To save your current configuration, do the following:  
1. Select g from the Main Menu to view the Save Current Configuration  
screen.  
The following message prompt displays:  
The current settings will become permanent.  
All the saved settings will be lost!  
a. OK  
x. Cancel and return to the Previous Menu  
2. Select either a to confirm the process or x to cancel the process.  
Return to Default Configuration  
The Return to Default Configuration screen allows you to restore the  
original factory default switch settings before changes were made via the  
user interface or SNMP.  
To return to default configuration settings, do the following:  
1. Select h from the Main Menu to view the Return to Default  
Configuration screen.  
The following message prompt displays:  
Switch will return to default settings.  
All the current changes and settings will be lost!  
a. OK  
x. Cancel and return to the Previous Menu  
2. Select either a to confirm the process or x to cancel the process.  
Logout  
The Logout menu item allows you to log out of the user interface and  
return to the Login screen. Select i from the Main Menu to logout. After  
this command is entered, the system logout occurs automatically.  
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Reset  
The Reset screen allows you to perform a switch hardware reset. You are  
first prompted as to whether or not to save the current switch  
configuration.  
To reset the switch, do the following:  
1. Select j from the Main Menu to view the Reset screen.  
The following message prompt displays:  
Switch will go through a hardware reset.  
All the current changes that have not been saved  
will be lost!  
a. Save changes and Reset  
b. Don’t save changes and Reset  
x. Cancel and return to the Previous Menu  
2. Select either a or b to confirm the process or x to cancel the process.  
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4. CONFIGURING & MONITORING THE SWITCH  
Common Tasks  
The switch console menus allow you to modify default switch settings and  
configure the switch for network management. They also allow you to  
monitor switch performance and status. See Section 3, “ELS100-24TXM  
User Interface,” for an overview of the menu hierarchy and a description  
of all menus. The following sections describe common tasks in setting up  
and operating the ELS100-24TXM switch using the console menus.  
To begin, set operating parameters and make sure the network  
connections are correct by performing these tasks:  
Setting password protection for the switch to prevent unauthorized  
access to console menus  
Assigning an IP address for the switch if you plan to manage the  
switch using SNMP, or if you use Telnet to access the switch  
Checking network configuration status and verifying that network  
connections are correct  
After the switch is installed and operating, you may want to perform any  
of the following tasks:  
Connecting via Telnet for in-band access to the console menus  
Setting SNMP parameters for management access  
Viewing switch statistics to monitor and evaluate switch performance  
and traffic patterns on the network  
Configuring port mirroring  
Downloading a software upgrade  
Configuring Spanning Tree parameters  
Configuring VLANs  
Configuring Class of Service  
Configuring port operation (enable/disable, port speed, full/half  
duplex and flow control)  
Configuring the forwarding table  
Configuring the broadcast cutoff rate  
Setting a default gateway  
Configuring BootP/DHCP  
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Setting Password Protection  
The ELS100-24TXM switch is factory-configured with access rights to the  
console menus set to READ/WRITE. This setting allows anyone to use  
the console menus to modify any operational parameter. To protect the  
configuration of the switch from unauthorized modification, you should  
enable password protection to the console menus.  
To enter a password, do the following:  
1. Select Password from the System Configuration Menu and press  
[Enter].  
2. Enter a password containing six to eight alphanumeric characters.  
The password is not case sensitive. For verification, you are asked to  
enter your password again. If both entries agree, the new password is  
stored.  
By factory default, there is no password configured. This means that at  
the login:prompt, all you have to do is press [Enter] to gain READ/  
WRITE access to the console menus. When you configure the password  
parameter, the factory default setting is deactivated and the new  
password governs access to the console menus.  
After you enter a password and logout using the Logout command from  
the Main Menu, all access rights change to READ-ONLY. The current  
level of access control is indicated at the top of the management screen.  
If you forget your password, contact your Cabletron Systems Support  
Representative.  
You are automatically logged out from the console menus  
based on the Screen Timeout setting in the System Config-  
uration Menu. A setting of “0” permits the console menus to  
remain available indefinitely.  
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Assigning an IP Address  
To assign an IP address to the switch, do the following:  
1. Select System Configuration Menu from the Main menu.  
2. Select IP address from the menu and enter the IP address. Press  
[Enter].  
The IP address is now programmed. The subnet mask is automatically set  
to correspond to the class of the address entered. If a different mask is  
used on the network, select Subnet Mask from the menu and enter the  
appropriate mask.  
Checking Network Configuration Status  
To check connection status for the network, do the following:  
1. Select Port Menu from the Main Menu.  
If a network cable is properly connected to a port, the Link Status for  
the port reads CONNECTED. If no cable is connected to the port, or  
if the cable or port is faulty, the Link Status for the port reads DIS-  
CONNECTED.  
2. If you see a DISCONNECTED status for a connected port, plug the  
cable into another port on the switch or try another cable.  
Connecting via Telnet  
You can connect to the ELS100-24TXM switch from a remote location  
using the Telnet application. This application allows you to establish in-  
band access to the console menus.  
To connect to the ELS100-24TXM switch via Telnet, do the following:  
1. Assign an IP address using the System Configuration Menu.  
2. Set a password using the System Configuration Menu.  
3. Login to the ELS100-24TXM switch via Telnet using the configured  
IP address and the password.  
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Setting SNMP Management Access  
Access to the ELS100-24TXM switch through SNMP is controlled by  
community names. The community names set for the switch must match  
those used by the SNMP management station for successful  
communication to occur. The switch uses two community names. The  
“Public” community name allows read-only access to the device via  
SNMP. The “Private” community name allows read/write access.  
The ELS100-24TXM switch can send SNMP messages called traps to  
SNMP management stations when an important event occurs with the  
switch. The switch allows up to four destinations to be configured for  
these trap messages to be sent.  
To configure SNMP access for the switch, do the following:  
1. Select System Configuration Menu from the Main Menu.  
2. Select SNMP Configuration Menu.  
3. Select SNMP Private Community Name from the menu and enter the  
desired read/write access community name (you are permitted to  
enter from one to 10 characters).  
4. Select SNMP Public Community Name and enter the desired read-  
only community name (you are permitted to enter from one to 10  
characters).  
5. Select one or more Trap Destination entries from the menu and enter  
the appropriate IP addresses.  
6. For each trap destination entered, a corresponding community name  
should be entered.  
Viewing Switch Statistics  
To view switch statistics, do the following:  
1. Select Switch Statistics Screen from the Main Menu.  
The screen lists the main statistical counts for all ports on the switch  
simultaneously.  
2. Select Switch Summary from the Switch Statistics Screen.  
The screen lists a summary of sum total statistics for all ports on the  
switch.  
3. Select Port Statistics from the Switch Statistics Screen.  
4. Enter the port number. Press [Enter].  
The screen lists expanded port-level statistics for an individual port.  
5. On any of the statistics screens, select Clear to clear (zero) the  
displayed statistical counts and Refresh to refresh (update) the  
displayed statistical counts.  
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Configuring Port Mirroring  
You can mirror the traffic being switched on any port for the purposes of  
network traffic analysis and connection assurance. When Port Mirroring  
is enabled, one port in each group of eight becomes a monitor port for any  
one of the other ports within the group. The two ports must be operating  
at the same speed.  
To configure port mirroring, do the following:  
1. Select Switch Configuration Menu from the Main Menu.  
2. Turn the switch port mirroring operation on or off by toggling the Port  
Mirroring Enable option (pressing g).  
3. Select Mirrored Port for the port to be mirrored (traffic information  
source) and enter the number of the port. Press [Enter].  
5. Select Transmit Data Mirror Enable to mirror the data being  
transmitted out the mirrored port to the mirroring port. Alternatively,  
select Receive Data Mirror Enable to mirror the data being received  
on the mirrored port to the mirroring port. Only one of these  
parameters can be enabled at a given time.  
6. Connect a traffic analyzer or RMON probe to the mirroring port.  
Downloading a Software Upgrade  
You can upgrade the operational software in the ELS100-24TXM switch  
without physically opening the switch or being in the same location. The  
software storage sector in the flash memory of the switch is  
reprogrammable, allowing you to easily download software feature  
enhancements and problem fixes to the switch from a local or remote  
location.  
Software can be downloaded to the switch in two ways:  
Via the serial port. This procedure is an out-of-band operation that  
copies the software through the serial port to the switch. This  
operation takes approximately 10 minutes and requires minimal  
configuration.  
Via TFTP download. This procedure uses a TFTP server connected  
to the network and downloads the software using the TFTP protocol.  
A TFTP download is much faster than a serial download, requiring  
only a few seconds, and can be used to upgrade an ELS100-24TXM  
switch that is not physically proximate. The disadvantage is that this  
method requires a TFTP server and additional setup.  
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Downloading Via the Serial Port  
A serial download is the easiest method to upgrade the ELS100-24TXM  
switch software, requiring the least amount of equipment and  
configuration.  
To download switch software via the serial port, do the following:  
1. Select Download Software Menu from the Main Menu.  
2. Select Start XMODEM Download.  
The following message prompt displays:  
Software downloader is running.  
Software downloader request: Please start XMODEM  
transfer (9600, N, 1).(Please ignore any  
characters that may appear on the next line).  
3. Send the file using the XMODEM protocol from your computer  
application (the procedure varies depending upon the application  
used).  
When the XMODEM procedure finishes, the following message  
prompt displays:  
Software download successfully completed XMODEM  
download. Please wait while program flash is being  
written. Software downloader is exiting after  
successful download to flash. Please wait while  
system initializes.  
The system software will reinitialize and display the login prompt.  
Downloading Via TFTP  
To perform a TFTP download, you must first configure the  
ELS100-24TXM switch. This consists of programming the switch with an  
IP address, if this has not already been done, and entering the IP address  
of the TFTP server and the name of the upgrade file. To program the  
switch IP address, go to the System Configuration Menu which is  
accessible from the Main Menu screen.  
To download switch software via TFTP, do the following:  
1. Select TFTP Server IP Address from the Download Software Menu.  
2. Enter the TFTP server IP address and press [Enter].  
3. Select TFTP File Name and enter the file name to be downloaded  
from the TFTP server.  
For a TFTP download, the path to the file must be in-  
cluded in its name. For example, if the upgrade file  
name is filename.bin and it resides in the directory /  
usr/tftp on the TFTP server, then you must enter the  
TFTP file name as: “/usr/tftp/filename.bin”.  
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4. If necessary, configure the address of an IP gateway to reach the  
server from the switch using the Default Gateway field on the System  
Configuration Menu.  
5. Configure the TFTP server by copying the download file from the  
upgrade disk to an appropriate directory and starting the server.  
6. Select Start TFTP Download and press [Enter].  
To verify that the TFTP download has been successfully completed,  
note the software version level displayed on the General Information  
screen accessible from the Main Menu. This number should match  
the version number that appears on the upgrade disk.  
Configuring Spanning Tree Parameters  
The ELS100-24TXM switch supports the IEEE 802.1D Spanning Tree  
Protocol. This protocol allows redundant connections to be created  
between LAN segments for purposes of fault tolerance. Two or more  
physical paths between different segments can be created through the  
switch, with the Spanning Tree Protocol choosing a single path at any  
given time and disabling all others.  
If the chosen path fails for any reason, a disabled alternative is activated,  
thereby maintaining the connection. See Appendix B, “Spanning Tree  
Concepts,” for further information on using the Spanning Tree Protocol in  
a network.  
Configuring Spanning Tree parameters from their de-  
fault can cause serious deterioration of network per-  
formance.  
To configure Spanning Tree Parameters, do the following:  
1. Select Switch Configuration Menu from the Main Menu.  
2. Select Spanning Tree Configuration Menu.  
3. Turn the switch Spanning Tree operation on or off by toggling the  
Spanning Tree Protocol Enable option by pressing a.  
4. Select Port Configuration.  
The Spanning Tree Port Configuration Menu displays. Change the  
parameters that display in this menu as required.  
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Configuring VLANs  
A virtual LAN (VLAN) is a group of devices on one or more LANs that are  
configured such that they can communicate as if they were attached to  
the same wire. Because VLANs are based on logical instead of physical  
connections, they are extremely flexible.  
The most fundamental benefit of VLAN technology is the ability to create  
workgroups based on function rather than on physical location or media.  
For further information, see Appendix D, “Virtual LANs (VLANs).”  
To configure VLANs, do the following:  
1. Select Switch Configuration Menu from the Main Menu.  
2. Select VLAN Configuration Menu.  
3. Turn the global switch VLAN operation on or off by toggling the VLAN  
Enable option by pressing a.  
4. Select VLAN Menu.  
The VLAN Menu displays. This menu displays the current configura-  
tion of VLANs in the system.  
5. To delete a current VLAN, select Delete, then enter the number of the  
VLAN.  
6. To configure a VLAN, select Configure and enter a VLAN number. A  
new VLAN can be created this way.  
The VLAN #n Configuration Menu displays. From this menu, you can  
configure VLAN names, add/delete ports in a VLAN, and add/delete  
egress ports for a VLAN.  
7. From the main VLAN Configuration Menu, select VLAN Port Menu to  
configure the VLAN port mode (hybrid or access) for individual ports.  
Configuring Class of Service  
You can configure Class of Service parameters using the Class of Service  
Configuration Menu. This menu permits you to configure priority levels to  
traffic being forwarded through the switch. During periods of congestion,  
Class of Service settings ensure that traffic which has been assigned high  
priority is forwarded through the switch ahead of normal priority traffic. For  
further information, see Appendix E, “Class of Service.”  
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To configure Class of Service, do the following:  
1. Select Class of Service Configuration Menu from the Switch  
Configuration Menu.  
2. Turn the global switch Class of Service operation on or off by toggling  
the Class of Service Enable option by pressing a.  
3. Select Priority Threshold and type a number between 0 and 7.  
4. Select Configure Port Priority.  
The Port Priority Menu displays. From this menu, individual port pri-  
ority levels can be configured.  
Configuring Port Operation  
You can configure switch ports for operational parameters such as auto-  
negotiation, duplex mode, port speed and flow control. The fiber ports  
always operate in full duplex mode and 100Mbps speed. Therefore, these  
two parameters, along with auto-negotiation, are not configurable on fiber  
ports.  
To configure port operation, do the following:  
1. Select Port Menu from the Main Menu.  
2. Select Configure and enter an individual port number or multiple port  
numbers. Press [Enter].  
Examples: You can configure an individual port or  
multiple ports, separated by commas or hyphens, in ei-  
ther:  
a list: ports 1, 3, 5, 7  
a range: ports 6-9  
or a combination of both: 1, 3, 5, 7, 10-15, 21, 23  
The port number(s) entered displays on the top of the Port Configu-  
ration screen.  
3. Select Port Name and enter a Port Name. Press [Enter].  
4. Select Port Enable to toggle between enabling (Yes) and disabling  
(No) the port(s).  
5. Select Flow Control Enable to toggle between enabling (Yes) or  
disabling (No) flow control on the port(s).  
6. Select Auto-negotiation Enable to toggle between enabling (Yes) or  
disabling (No) auto-negotiation on the port.  
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If Auto-negotiation Enable is set to No, the Full Duplex  
and Port Speed modes need to be configured.  
If Auto-negotiation Enable is set to Yes, the Full Duplex  
and Port Speed fields disappear and the system auto-  
matically configures these functions.  
7. Select Full Duplex to toggle between Yes (Full Duplex) and No (Half  
Duplex) mode on the port(s).  
8. Select Port Speed to toggle between 10Mbps and 100Mbps speeds  
on the port(s).  
Configuring the Forwarding Table  
The Forwarding Table allows you to designate forwarding treatment  
through the switch for specific MAC addresses, allowing you to maintain  
the efficiency and security of your network. You can search for specific  
MAC addresses by the address itself or by port number. The switch learns  
addresses dynamically from incoming packets and builds a table of these  
addresses along with their associated ports. There are three types of  
MAC addresses in the forwarding table:  
Dynamic MAC addresses, which are dynamically learned and  
removed by the switch based on a time period defined using the  
Forwarding Table Aging Time option in the Switch Configuration  
Menu.  
Static MAC addresses, which are entered manually, stored in  
nonvolatile memory and automatically placed in the forwarding table.  
System MAC addresses, which are set by the system software and  
cannot be modified. Each switch port has a permanent system MAC  
address assigned to it.  
There are three types of dispositions associated with each address in the  
forwarding table:  
Forward, which directs packets destined for a specific MAC address  
to a specific port.  
Discard, which drops packets destined for a specific MAC address  
(and thus provides a security function by blocking certain packets).  
Local, which is for packets destined for the switch itself (such as a  
“local” SNMP management packet).  
To configure the forwarding table, do the following:  
1. Select Switch Configuration Menu from the Main Menu.  
2. Select Forwarding Table Configuration Menu.  
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To either make an existing dynamic entry static (Make Entry Static) or  
delete a static entry (Delete Static Entry), do the following:  
1. Select the letter associated with the option.  
The following message prompt displays:  
Enter MAC Address:  
2. Enter the MAC address. Press [Enter].  
To either add a static entry (Add Static Entry) or modify a static entry  
(Modify Static Entry), do the following:  
1. Select the letter associated with the option.  
The following message prompt displays:  
Enter MAC Address:  
2. Enter the MAC address. Press [Enter].  
The following message prompt displays:  
Forward to Port (Y/N):  
3. Do one of the following:  
If you select “Y” and Press [Enter], the system displays:  
Enter Port Number (1-24):  
Enter the port number. Press [Enter].  
If you select “N” and press [Enter], the system displays “discard” in  
the Disposition field.  
Configuring Broadcast Cutoff Rate  
This setting affects the throttling of excessive broadcast or unicast  
packets with unknown MAC addresses being handled by the switch.  
Normally, when these types of packets are received by the switch, they  
are forwarded (flooded) to every port on the switch or on a VLAN.  
However, if the receiving rate of these packets exceeds the broadcast  
cutoff rate, the switch will throttle back or limit the forwarding of these  
packets based on the configured Broadcast Cutoff Rate. This mechanism  
helps to prevent broadcast storms, a problem often encountered in  
Ethernet networks.  
To configure the broadcast cutoff rate, do the following:  
1. Select Switch Configuration Menu from the Main Menu.  
2. Select Broadcast Cutoff Rate, enter the rate value, and press [Enter].  
Valid values are in the range from 100 to 500,000 per second. This  
rate value is applied to each grouping of 8 ports on the switch. A set-  
ting of 500,000 essentially disables this feature.  
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Setting a Default Gateway  
The Default Gateway parameter defines the IP address of a router or  
other network device to which IP packets are to be sent if destined for a  
subnet outside of that which the switch is operating.  
To set a default gateway, do the following:  
1. Select System Configuration Menu from the Main Menu.  
2. Select Default Gateway.  
3. Enter the gateway IP address. Press [Enter].  
Configuring BootP/DHCP  
The DHCP and BootP protocols allow you to automatically configure the  
switch’s IP address information. Enabling this feature greatly speeds up  
device configuration, especially when a large number of devices are  
installed.  
A DHCP and/or BootP server must be operating on the network and be  
properly configured for this option to work. When this option is enabled,  
the switch first tries to obtain an IP address from a DHCP server. If this  
fails, the switch tries to obtain an IP address from a BootP server. If this  
fails, the switch uses a previously configured IP address, if one exists.  
To configure BootP/DHCP, do the following:  
1. Select System Configuration Menu from the Main Menu.  
2. Select BootP/DHCP Enable.  
This selection toggles between Enable and Disable.  
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5. SNMP MANAGEMENT  
The SNMP Protocol  
SNMP (Simple Network Management Protocol) is a communication  
protocol designed specifically for the purpose of managing devices or  
other elements on a network. Network equipment commonly managed  
with SNMP includes hubs, switches, routers, and host computers. SNMP  
is typically used to configure these types of devices for proper operation  
in their network environment, as well as to monitor them to evaluate their  
performance and detect potential problems.  
Managed entities supporting SNMP typically contain software, which runs  
locally on the device and is referred to as an agent. In Figure 5-1, software  
in an ELS100-24TXM switch functions as an agent, monitoring and  
controlling the functionality of the switch.  
Figure 5-1. ELS100-24TXM Switches Managed by an SNMP Management  
Workstation  
A defined set of variables, referred to as managed objects, is maintained  
by the agent and used to manage the device. These objects are defined  
in a Management Information Base (MIB) which allows for a standard  
presentation of the information controlled by the agent over the network.  
The software used to access the information maintained by the SNMP  
agents across a network is referred to as the SNMP Manager, and  
typically runs on a workstation.  
The SNMP manager software uses a MIB specification, equivalent to that  
which the agent maintains, to read and write objects controlled by the  
agent for purposes of configuring and monitoring the device. SNMP  
defines the format of the MIB specifications and the protocol used to  
access this information.  
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There are three main operations defined in SNMP:  
Operations that read information from the managed device, such as  
those used to obtain status or statistical data, are called GET  
operations.  
Operations that change a functional parameter on the device, such  
as those used to configure Spanning Tree or to initiate a software  
download, are referred to as SET operations. GET and SET  
operations are initiated only by the manager software, and result in a  
response by the agent.  
The third operation type, the TRAP, allows the agent to send an  
unsolicited message to the manager. This operation is typically used  
as an alert of a potential problem or a change of status with the  
device. The Trap Destination parameter in the SNMP Configuration  
Menu is used to configure the IP addresses of the SNMP Manager to  
which ELS100-24TXM trap messages are sent.  
MIB Objects  
A number of standard MIB specifications have been defined for managing  
network equipment. SNMP compliant devices typically support one or  
more standard MIBs defined by the Internet Engineering Task Force  
(IETF), in the form of Request for Comments (RFC) documents.  
These MIBs provide a common method of managing devices, such as  
switches and hubs, and network interfaces, such as Ethernet and token  
ring. The primary standard MIB, referred to as MIB-II, provides an overall  
view of the managed agent and must be supported, at least in part, by all  
SNMP agents. In addition, proprietary MIB extensions are defined by  
commercial vendors for managing device-specific functions of their  
products.  
The ELS100-24TXM switch supports four standard MIBs:  
RFC 1213 - Management Information Base for Network  
Management of TCP/IP based Internets (MIB-II)  
RFC 1398 - Definitions of Managed Objects for the Ethernet-like  
Interface Types (Ethernet MIB)  
RFC 1493 - Definitions of Managed Objects for Bridges  
RFC 1757 - Remote Network Monitoring Management Information  
Base  
The ELS100-24TXM switch also supports Cabletron Systems proprietary  
MIB extensions.  
RFC 1213 (MIB-II)  
RFC 1213 provides management of switch system-level parameters,  
including TCP/IP protocol-related statistics, IP addressing, routing table  
information, and interface statistics for each switch port. MIB-II is the  
standard MIB defined by RFC 1213. All agent devices operating SNMP  
are required to support at least part of MIB-II.  
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This MIB reports information about the protocols and network interfaces  
supported on the agent itself, as well as other general information. The  
MIB is divided into a number of groups, each of which corresponds to a  
specific protocol or set of information. Some groups are defined in other  
RFC documents.  
The groups specifically defined in RFC 1213 and supported by the  
ELS100-24TXM switch system software are as follows:  
System – General information about the agent system  
Interfaces – Information about the network interfaces of the system  
Address Translation – Interface address information, both MAC level  
and network (IP) level  
IP – Statistics and information related to the IP protocol  
ICMP – Statistics and information related to the ICMP protocol  
TCP – Statistics and information related to the TCP protocol  
UDP – Statistics and information related to the UDP protocol  
Transmission – Statistics and information related to the physical  
network medium to which the system interfaces (e.g. Ethernet, token  
ring, etc.).  
SNMP – Statistics and information related to the SNMP protocol  
RFC 1398 (Ethernet MIB)  
RFC 1398 provides management and monitoring for the Ethernet-specific  
aspects of each port on the switch. This is the Ethernet-specific statistics  
subgroup of the MIB-II Transmission group. This group provides a set of  
statistics related to Ethernet’s physical level operation. Specifically, error  
and collision-related statistics are presented.  
RFC 1493 (Bridge MIB)  
RFC 1493 is a group defined under MIB-II. This MIB deals with the  
operation of the system as an 802.1D-compliant bridge. Areas of  
functionality supported by this group include Spanning Tree and  
forwarding table information and configuration.  
RFC 1757 (RMON MIB)  
RFC 1757 is a group defined under MIB-II. This MIB provides  
management for the RMON aspects of the switch. The ELS100-24TXM  
switch supports four of the nine groups of RMON defined for Ethernet  
networks on a per port basis. For further information, see the subsection  
“RMON” in Chapter 1.  
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Cabletron Systems Proprietary MIB Extensions  
Areas of ELS100-24TXM switch functionality not covered by the standard  
RFC MIBs are specified in the Cabletron Systems private MIB. This MIB  
definition is specified separately from MIB-II. Areas covered in this MIB  
include various system, switch, and port level information. System  
information MIB variables are shown in Table 5-1, switch information  
variables in Table 5-2, and port variables in Table 5-3.  
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Table 5-1. System Information Variables  
Variable  
Description  
SerialNo  
Serial number of the unit.  
TftpIpAddress  
TftpFilename  
PowerUpCount  
TFTP server IP address for TFTP downloads.  
Filename of the download upgrade file on the TFTP server.  
Cumulative number of times switch has powered up or been  
reset.  
BroadcastCutoffRate  
Per second rate past which broadcast and destination un-  
known unicast frames are not flooded on each group of 8  
ports on the switch.  
GatewayIPAddress  
TftpStartDownload  
IP address of the default gateway (router) to which packets  
destined for another subnet are sent.  
Start TFTP downloads via SNMP, using TftpIpAddress and  
TftpFilename.  
BootpDhcpEnable  
Reset  
Enable/disable BootP/DHCP for IP address configuration.  
Remotely execute a software reset of the switch.  
Table 5-2. Switch Information Variables  
Variable  
Description  
SwitchIpAddress  
SwitchSubnetMask  
ActiveAgingTime  
IP address of the switch, used for management.  
Subnet mask corresponding to the SwitchIPAddress.  
Aging tick period in seconds by which addresses in the for-  
warding table are aged out.  
SwitchStpStatus  
SwitchManager  
SwitchTrapRcvr1  
Enable/disable operation of Spanning Tree on the switch.  
List of SNMP trap manager IP addresses.  
SNMP trap manager IP address #1.  
SwitchTrapCommunity1  
SNMP community associated with trap manager IP address  
#1.  
SwitchTrapRcvr2  
SNMP trap manager IP address #2.  
SwitchTrapCommunity2  
SNMP community associated with trap manager IP address  
#2.  
SwitchTrapRcvr3  
SNMP trap manager IP address #3.  
SwitchTrapCommunity3  
SNMP community associated with trap manager IP address  
#3.  
SwitchTrapRcvr4  
SNMP trap manager IP address #4.  
SwitchTrapCommunity4  
SNMP community associated with trap manager IP address  
#4.  
SwitchPortMirroringSta-  
tus  
Enable/disable port mirroring operation of the switch.  
continued on next page  
SNMP Management 71  
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Table 5-2 Switch Information Variables (continued)  
Description  
Variable  
SwitchMirroredPort  
SwitchMirroringPort  
SwitchXmitMirrorEnable  
Port to be mirrored from.  
Port to be mirroring to.  
Enable/disable mirroring of transmitted traffic out of the  
mirrored port to the mirroring port.  
SwitchRcvMirrorEnable  
Enable/disable mirroring of received traffic into the mir-  
rored port to the mirroring port.  
SwitchVlanEnable  
SwitchVlanConfigTable  
SwitchVlanId  
Enable/disable global VLAN operation of switch.  
Table indexed by SwitchVlanId  
VLAN number or ID.  
SwitchVlanName  
SwitchVlanPorts  
SwitchVlanStatus  
Text string for VLAN name.  
Ports in the VLAN.  
Variable used to add or delete entries from the VlanConfig-  
Table.  
SwitchVlanEgressPorts  
SwitchVlanStatus  
Ports to which traffic destined for this VLAN may be trans-  
mitted.  
Variable used to add or delete entries from the VlanConfig-  
Table.  
SwitchVlanPortTable  
SwitchVlanPortId  
SwitchVlanPvid  
Table indexed by SwitchVlanPortId.  
Port number or ID.  
Port VLAN ID (PVID) for this port.  
SwitchVlanPortType  
The type of VLAN this port is operating as, either hybrid or  
access.  
SwitchPriorityEnable  
Enable/disable global traffic priority in the switch.  
SwitchPriorityThreshold  
Priority threshold level (0-7) in the switch which defines  
switch traffic to be high or low priority.  
SwitchPriorityPortTable  
SwitchPriorityPortId  
SwitchPriorityDefault  
Priority table indexed by SwitchPriorityPortId.  
Port number or ID.  
Priority level (0-7) assigned to untagged traffic entering the  
associated port.  
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Table 5-3. Port Variables  
Variable  
Description  
PortId  
Port number or ID.  
Link status of the port.  
PortStatus  
PortDuplexStatus  
Full/half duplex setting of the port. Not configurable if auto-  
negotiation is enabled.  
PortName  
PortEnable  
PortSpeed  
Text name assigned to the port.  
Enable/disable status of the port.  
Speed the port is operating at. Not configurable if auto-ne-  
gotiation is enabled.  
PortAutonegEnable  
PortFlowControlEnable  
PortType  
Enable/disable auto-negotiation on the port.  
Enable/disable flow control on the port.  
The type of port, either: 10Base-T, 100Base-TX, 100Base-  
FX.  
Compiling MIB Extensions: Cabletron Website  
The MIBs supported by the ELS100-24TXM switch must be compiled into  
the SNMP network management platform before the switch can be  
managed. The supported MIBs are available via the Internet at the  
following address:  
ftp://134.141.197.25/pub/snmp/mibs/enterprise  
file name: ctELS100-NG-mib.txt  
The four standard MIB specifications listed above with which the  
ELS100-24TXM switch is compliant are generally available with the  
SNMP management platform.  
Application modules specific to managing the ELS100-24TXM switch  
under different network management platforms are available. Contact  
Cabletron Systems for information regarding supported platforms. If you  
require assistance, contact the Cabletron Systems Global Support Center  
directly at either:  
(603) 337-3219  
or  
(603) 332-9400  
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APPENDIX A. TECHNICAL SPECIFICATIONS  
General  
Standards Compliance  
IEEE 802.1D Transparent Bridging Specifications (ISO/IEC 10038)  
IEEE 802.1p Traffic Class Expediting and Dynamic Multicast Filtering  
IEEE 802.1Q Virtual Bridged Local Area Networks  
IEEE 802.2 Local Area Networks, Logical Link Control (LLC)  
IEEE 802.3 CSMA/CD 9 (ISO/IEC 8802-3)  
IEEE 802.3i 10Base-T (ISO/IEC 8802-3, clause 14)  
IEEE 802.3u 100Base-TX (ISO/IEC 8802-3, clause 25)  
IEEE 802.3u 100Base-FX  
IEEE 802.3x Flow Control  
EIA RS-232C (DTE-to-DCE)  
EIA RS-310C (19” rackmount)  
Certification  
Emissions: FCC Part 15, Subparts A and B, Class A; EN55022 (CISPR  
22), Class A; VCCI, Class A  
Safety: UL 1950, CUL 1950 B (CSA); IEC 950 (TUV)  
CE Mark: 89/336/EEC; 93/68/EEC; 73/23/EEC  
Immunity: IEC 801-2; IEC 801-3; IEC 801-4  
Data Rate  
10 Mbps Manchester encoded or 100 Mbps 4B/5B encoded  
Environmental Specifications  
Operating temperature:  
Operating humidity:  
Storage temperature:  
Storage humidity:  
32° to 113° F ( 0° C to 45° C)  
5 to 95% relative, non-condensing  
-22° to 158°F (-30° C to 70° C)  
5 to 95% relative, non-condensing  
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Electrical Specifications  
Input voltage:  
100-240 VAC  
50-60 Hz  
75 VA  
Input frequency:  
Maximum power consumption:  
Physical  
Height:  
Length:  
Width:  
1.75 in. (4.4 cm)  
16.0 in. (40.6 cm)  
17.1 in. (43.4 cm mountable  
in a standard 19 in. rack)  
Weight:  
10.5 lb. (4.8 kg)  
Microprocessor  
Type:  
Intel i960J series, 32 bit  
33 MHz  
Speed:  
Memory  
Processor DRAM:  
Packet Buffer Memory:  
Flash Memory:  
4 MB  
4 MB/8 ports  
2 MB  
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Port Specifications  
Console Port  
Table A-1 shows the console port pin assignments.  
Table A-1. RS-232 Console Port Pin Assignments  
Pin  
1
Signal Name  
RTS/CTS  
TXD  
2
3
RXD  
4
DSR  
5
Ground  
DTR  
6
7
DCD  
8
DCD  
9
Not used  
10Base-T and 100Base-TX Ports  
The ELS100-24TXM switch provides IEEE 802.3u auto-negotiation on its  
10Base-T/100Base-TX ports for 10/100 speed and full/half duplex  
operation. Table A-2 shows the 10Base-T/100Base-TX pinouts. These  
ports are wired MDI-X. All undefined pins are not used.  
Table A-2. 10Base-T/100Base-TX Pinouts  
Pin  
1
MDI-X Signal Name  
RD+  
RD-  
TD+  
TD-  
2
3
6
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MDI/MDI-X Crossover Cable Wiring  
Figure A-1 shows the wiring scheme for implementing a crossover cable  
if needed for connection to the switch’s 10Base-T or 100Base-TX ports.  
Such a cable may be required when connecting the switch to another  
switch or a hub device.  
Figure A-1. External Crossover Cable Wiring  
Power Cord Set Requirements  
The wide-range input feature of the ELS100-24TXM Ethernet switch  
permits it to operate from any line voltage between 100 and 120 or 200  
and 240 VAC.  
The power cord set (appliance coupler, flexible cord, and wall plug) you  
received with the switch meets the requirements for use in the country  
where you purchased the switch.  
Power cord sets for use in other countries must meet the requirements of  
the country where you use the switch. For more information on power  
cord set requirements, contact your Cabletron Systems Support  
Representative.  
General Requirements  
The requirements listed below are applicable to all countries:  
The length of the power cord set must be at least 5.00 feet (1.5 m)  
and a maximum of 6.56 feet (2.0 m).  
All power cord sets must be approved by an acceptable accredited  
agency responsible for evaluation in the country where the power  
cord set will be used.  
The power cord set must have a minimum current capacity of 10A  
and a nominal voltage rating of 125 or 250 VAC, as required by each  
country’s power system.  
The appliance coupler must meet the mechanical configuration of an  
EN 60 320/IEC 320 Standard Sheet C13 connector for mating with  
appliance inlet on the switch.  
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Country-Specific Requirements  
Table A-3 lists the power cord set requirements by country and identifies  
the accredited agency within that country.  
Table A-3. Power Cord Set Requirements by Country  
Country  
Australia  
Austria  
Accredited Agency  
EANSW  
OVE  
See Notes *  
1
1
1
2
1
1
1
1
1
3
1
1
1
1
1
2
Belgium  
CEBC  
CSA  
Canada  
Denmark  
Finland  
DEMKO  
FIMKO  
UTE  
France  
Germany  
Italy  
VDE  
IMQ  
Japan  
JIS  
Netherlands  
Norway  
KEMA  
NEMKO  
SEMKO  
SEV  
Sweden  
Switzerland  
United Kingdom  
United States  
BSI  
UL  
* The note column includes a number. Associate this number with the corresponding  
notes listed after the table to obtain specific power standards and requirements.  
NOTE 1  
Flexible cord must be <HAR> Type HO5VV-F or HO3VV-F, 3-conductor,  
1.0 mm2, or 0.75 mm2 conductor size. Power cord set fittings (appliance  
coupler and wall plug) must bear the certification mark of the agency  
responsible for evaluation in the country where it will be used.  
NOTE 2  
Flexible cord must be Type SV, SJ, SPT or equivalent, No. 18 AWG, 3-  
conductor. Wall plug must be a two-pole grounding type with a NEMA 5-  
15P (15A, 125V) or NEMA 6-15P (15A 250V) configuration.  
NOTE 3  
Appliance coupler, flexible cord, and wall plug must bear a "T" mark and  
registration number in accordance with the Japanese Dentori Law.  
Flexible cord must be Type VCT or VCTF, 3-conductor, 0.75mm2  
conductor size. Wall plug must be a two-pole grounding type with a  
Japanese Industrial Standard C8303 (15A, 125V) configuration.  
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APPENDIX B. SPANNING TREE CONCEPTS  
General  
The IEEE 802.1D Spanning Tree Protocol resolves the problems of  
physical loops in a network by establishing one primary path between any  
two switches in a network. Any duplicate paths are barred from use and  
become standby or blocked paths until the original path fails, at which  
point they can be brought into service.  
Spanning Tree Features  
The ELS100-24TXM switch meets the requirements of the Spanning Tree  
Protocol (STP) by performing the following functions:  
Creates a single spanning tree from any arrangement of switching or  
bridging elements.  
The term “switch” is used as an equivalent to  
“bridge” in this document.  
Compensates automatically for the failure, removal, or addition of  
any device in an active data path.  
Achieves port changes in short time intervals, which establishes a  
stable active topology quickly with a minimum of network  
disturbance.  
Uses a minimum amount of communications bandwidth to  
accomplish the operation of the Spanning Tree Protocol.  
Reconfigures the active topology in a manner that is transparent to  
stations transmitting and receiving data packets.  
Manages the topology in a consistent and reproducible manner  
through the use of Spanning Tree Protocol parameters.  
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Spanning Tree Protocol in a Network  
Figure B-1 illustrates the use of three ELS100-24TXM switches to  
establish an effective Spanning Tree configuration. Switches A, B and C  
are connected together in a redundant topology (more than one path  
between two points). If the connection between A and B goes down, the  
link between A and C becomes active, thereby establishing a path  
between A and B through switch C. Additionally, if the connection  
between B and C goes down, the link between A and C becomes active,  
establishing a path between B and C through switch A.  
Figure B-1. Spanning Tree Using ELS100-24TXM Switches  
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Spanning Tree Protocol Parameters  
Several configuration parameters control the operation of the Spanning  
Tree Protocol. Table B-1 describes the parameters and lists the  
ELS100-24TXM switch default settings for each parameter.  
You can cause serious network performance degradation  
if you do not fully understand Spanning Tree concepts.  
Be sure to consult personnel experienced with this pro-  
cess prior to configuring Spanning Tree parameters.  
Table B-1. Spanning Tree Protocol Defaults  
Parameter  
Description  
Default Value  
Bridge  
Group  
Unique MAC group address, recognized by all bridges  
in the network.  
Address  
Bridge Iden-  
tifier  
Identifier for each bridge. This parameter consists of  
two parts: a 16-bit bridge priority and a 48-bit network  
adapter address. Ports are numbered in absolute  
numbers starting from 1 regardless of their bridge  
attachment. The network adapter address is the same  
address as the first port of the bridge.  
32768 (bridge  
priority)  
Port Identi-  
fier  
Identifies each port of each bridge, with an incremen-  
tal default value given for each port.  
Port 1 -32768  
Port 2 -32769  
Port 3 -32770  
Port 4 -32771  
Port 5 -32772  
Port 6 -32773  
Port 7 -32774  
Port 8 -32775  
Port 9 -32776  
Port 10 -32777  
Port 11 -32778  
Port 12 -32779  
Port 13 -32780  
Port 14 -32781  
Port 15 -32782  
Port 16 -32783  
Port 17 -32784  
Port 18 -32785  
Port 19 -32786  
Port 20 -32787  
Port 21 -32788  
Port 22 -32789  
Port 23 -32790  
Port 24 -32791  
Port Priority  
Indicates the priority of a specific port in relation to  
other ports.  
128  
10  
Cost Compo- The Spanning Tree Protocol calculates and ensures  
nent of Each  
Port  
that an active topology generates minimal cost paths.  
A value of 100 is generally used for 10Mbps Ethernet  
networks and a value of 10 is generally used for  
100Mbps Ethernet networks.  
For detailed information on the operation of the Spanning Tree Protocol,  
consult Section 4 of IEEE Standard 802.1D, ISO/IEC 10038:1993.  
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Spanning Tree Protocol Operation  
When the Spanning Tree Protocol is enabled for the first time or when  
there is a change in the network topology, such as a failure or the addition  
or removal of a component, the Spanning Tree Protocol automatically  
sets up the active topology of the current network.  
Communicating Between Bridges  
Periodically, all devices running the Spanning Tree Protocol on a network  
transmit packets to each other “in care of” the Bridge Group Address  
which all bridges share. When a bridge receives a frame sent to the  
Bridge Group Address, the bridge’s Spanning Tree Protocol processes  
the packet. Application software and other LAN segments ignore the  
packet. Bridges communicate between each other in order to determine  
the Root Bridge.  
Selecting a Root Bridge and Designated Bridges  
During communication between bridges, one bridge is determined to  
have the lowest bridge identifier. This bridge becomes the Root Bridge.  
After the Root Bridge has been selected, each LAN segment looks for the  
bridge that has the lowest cost relative to the Root Bridge. These bridges  
become Designated Bridges.  
Selecting Designated Ports  
Each Designated Bridge selects a Designated Port. This port is  
responsible for forwarding packets to the Root Bridge.  
Handling Duplicate Paths  
When the active topology of the network is determined, all packets  
between any two nodes in the network use only one path. Where a  
duplicate path exists, the non-designated port is put into a blocking state.  
Remapping Network Topology  
If there is a change in the network topology due to a failure or the removal  
or addition of any active components, the active topology also changes.  
This may trigger a change in the state of some blocked ports.  
84 Spanning Tree Concepts  
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There are five (5) states that the ports can be in for spanning tree:  
Blocking: A port in this state does not participate in the transmission  
of frames, thus preventing duplication arising through multiple paths  
existing in the active topology of the bridged LAN.  
Listening: A port in this state is preparing to participate in the  
transmission of frames. The transmission of frames is temporarily  
disabled in order to prevent temporary loops, which may occur in a  
bridged LAN during the lifetime of this state as the active topology of  
the bridged LAN changes.  
Learning: A port in this state is preparing to participate in the  
transmission of frames.  
Forwarding: A port in this state is participating in the transmission of  
frames.  
Disabled: A port in this state does not participate in the transmission  
of frames or the operation of the spanning tree process.  
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APPENDIX C. FLOW CONTROL  
Flow control is a mechanism which allows you to protect the switch from  
overload conditions and to keep additional traffic off the network when  
excessive congestion will result. Figure C-1 illustrates flow control for  
both half and full duplex applications.  
Figure C-1. Flow Control for Full and Half Duplex Applications  
Each port of the switch has a transmit queue which buffers frames to be  
sent out on that port. In this example, large amounts of data are being  
sent from Workstation A (connected to port X) and other ports on the  
switch to Workstation B (connected to port Y).The queue on port Y starts  
filling up with data until it reaches a determined threshold. The packet  
which causes the threshold to be exceeded triggers the Flow Control  
function on the port from which the packet entered the switch, in this case  
port X.  
Since port X is configured with Flow Control set to Enabled, the switch  
responds by initiating a pause frame (full duplex applications) or back-  
pressure mechanism (half duplex applications). The pause frame causes  
Workstation A to stop sending packets. After a certain amount of time has  
elapsed, determined by a value in the pause frame, Workstation A will  
resume sending data. Similarly, the back-pressure mechanism forces  
Workstation A to stop sending packets by inducing collisions on port X.  
The pause frame flow control mechanism supported by the  
ELS100-24TXM switch conforms with the IEEE 802.3x specification for  
full duplex flow control.  
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The ELS100-24TXM Port Statistics Screen indicates the number of pause  
frames that have been sent, indicating the number of times full duplex flow  
control has occurred. For the full duplex pause frame mechanism to work,  
the device connected to the switch port must also support IEEE 802.3x  
flow control. Flow Control is configurable per port in the Port Configuration  
Menu of the console menu or via SNMP.  
88 Flow Control  
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APPENDIX D. VIRTUAL LANS (VLANS)  
VLANs and Frame Tagging  
The ELS100-24TXM supports IEEE 802.1Q-compliant virtual LANs  
(VLANs). This capability provides a highly efficient architecture for  
establishing VLANs within a network and for controlling broadcast/  
multicast traffic between workgroups. Central to this capability is an  
explicit frame tagging approach for carrying VLAN information between  
interconnected network devices.  
With frame tagging, a four byte data tag field is appended to frames that  
cross the network. The tag identifies which VLAN the frame belongs to.  
The tag may be added to the frame by the end station itself or by a  
network device, such as a switch. In addition to VLAN information, the  
relative priority of the frame in the network can specified by the tag (see  
Appendix E, “Class of Service”).  
In the example in Figure D-1 below, the workstations attached to the top  
switch are members of the same two VLANs as the workstations attached  
to the bottom switch. The 802.1Q tags are used to carry VLAN information  
in the frames traveling between the two switches.  
Figure D-1. Two Switch VLAN Configuration  
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If the ELS100-24TXM is so configured, and, if the frame does not already  
contain a tag, a VLAN identifier is placed in a tag which is appended to  
frames as they are received by the switch. Within the switch and between  
switches compliant with IEEE 802.1Q, these identifiers are used to control  
the destination of broadcast frames, preventing them from being flooded  
to all connected stations and interfaces. When frames are forwarded back  
to destination end stations, the tag may or may not be stripped off,  
depending on the configuration of the end station and the switch port.  
By using 802.1Q tagged VLANs, users from physically dispersed  
locations can be formed into groups by assigning them to specific VLANs.  
Broadcast and multicast traffic for these specific VLANs can be directed  
across the network without being radiated out to stations that are not  
members of the same VLANs. Up to 4094 different VLANs can be  
specified by the 802.1Q tag, thus permitting the configuration of up to  
4094 virtual workgroups. This implementation is nonintrusive to end-  
station applications and the associated clients.  
ELS100-24TXM VLAN Configuration  
VLAN operation on the ELS100-24TXM is disabled by default. When  
VLANs are enabled, all frames are transferred internally through the  
switch with a VLAN tag. This tag may already be on the frame entering  
the switch, or added to the frame by the switch. VLAN information already  
existing on frames entering the switch is automatically handled by the  
switch. The ELS100-24TXM learns VLAN information from tagged frames  
and appropriately switches frames out the proper ports based on this  
information. The configuration of VLANs for frames entering the switch  
without tags must be made by the user of the switch. This configuration  
can be made either through the VLAN Menu in the console interface or  
via SNMP. The parameters used to configure VLANs on the  
ELS100-24TXM are explained below.  
VLAN ID  
The VLAN ID is used to uniquely identify different VLANs on a network.  
The VLAN ID information is contained in the 802.1Q tag header on a  
frame, and so identifies the VLAN to which a frame belongs. The  
ELS100-24TXM recognizes VLAN IDs in the tags on frames entering the  
switch, and can also add tags with an appropriate VLAN ID to untagged  
frames.  
Ports in VLAN  
When configuring VLANs on the ELS100-24TXM, individual ports are  
assigned to specific VLANs by setting the Port VLAN ID (PVID) for each  
port. Frames entering the switch which are untagged are automatically  
assigned a VLAN ID by the switch based on the PVID of the incoming  
port. The Ports in VLAN parameter makes the assignment of ports to  
PVIDs. An individual port can only be assigned to a single PVID with this  
parameter.  
90 Virtual LANs (VLANs)  
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VLAN Egress Ports  
The VLAN Egress Ports parameter is used to assign ports to a VLAN for  
carrying VLAN tagged frames across a network. The assignment of  
egress ports does not affect the assignment of VLAN IDs to frames  
entering the switch. However, frames exiting the switch may be sent out  
the egress ports configured for a specific VLAN ID. Frames exiting the  
switch via egress ports for a given VLAN are normally tagged.  
VLAN Access Ports  
Individual ELS100-24TXM ports can be configured as one of two types for  
the purpose of VLAN configuration: Access or Hybrid. A VLAN Access  
port is used to connect one or more VLAN-unaware devices to the switch.  
VLAN tagged frames are not allowed to enter or exit an Access port. If a  
tagged frame enters the switch on an Access port, the switch will drop the  
frame. End-user stations which do not support 802.1Q tags should be  
attached to ports on the switch configured as Access ports.  
In Example 1 in Figure D-2, both ports are designated as Access ports.  
The ports are both configured to be on VLAN X. An untagged frame (1)  
comes in through the left port and gets tagged with a VLAN X tag (2),  
based on the incoming port PVID. As the frame exits through the right  
port, the tag is stripped (3) since the outgoing port is an Access port as  
well and can only transmit untagged frames. The frame can propagate  
through the switch in this example only because both ports are on the  
same VLAN.  
In Example 2 in Figure D-2, both ports are also Access ports, however the  
port on the left is on VLAN X while the port on the right on VLAN Y. The  
untagged frame (1) comes in through the left port and again gets tagged  
with a VLAN X tag (2). However, because the outgoing port is on a  
different VLAN (VLAN Y), the frame is dropped. In general, frames cannot  
propagate between ports unless both ports belong to the same VLAN.  
Figure D-2. VLAN Access Ports  
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VLAN Hybrid Ports  
A VLAN Hybrid port is used to connect one or more VLAN-aware or  
VLAN-unaware devices to the switch. Both tagged and untagged frames  
can be received and transmitted on Hybrid ports. Egress ports should  
typically be configured as Hybrid ports.  
When a frame with an unlearned source MAC address enters a Hybrid  
port, the learning of that address and its associated VLAN is dependent  
on whether the frame is tagged or not. If the frame is untagged, its source  
MAC address is learned as a non-tagging station, with a VLAN ID equal  
to the input port PVID. All frames subsequently sent to that MAC address  
from this Hybrid port will be untagged. If the frame is tagged, its source  
MAC address is learned as a tagging station, with a VLAN ID equal to the  
value of the VLAN ID in the tag. All frames subsequently sent to that MAC  
address from this Hybrid port will be tagged with that same VLAN ID.  
In Example 1 in Figure D-3A, two ports are configured with two different  
PVIDs, X and Y. A frame arrives (1) with a tag for VLAN Z. If the  
destination MAC address of that frame has already been learned on the  
destination port as a tagged station with the same VLAN ID of Z, the frame  
is sent out that port (3) with the VLAN Z tag still appended to it. If the  
address has not been learned with the VLAN ID of Z on the destination  
port, the frame is dropped.  
In Example 2 in Figure D-3A, a similar scenario to Example 1 occurs,  
except that the incoming frame (1) is tagged with a VLAN Y tag. The frame  
is being sent (2) to a port that belongs to VLAN Y. In this case, the  
decision to append a VLAN Y tag or not to the outgoing frame depends  
on whether the destination MAC address has been learned as a tagged  
or as an untagged station. In this example, it was learned as an untagged  
station, so the frame is sent out without a tag (3).  
Z
Y
Identifiers  
2
2
X,Y, Z = VLAN  
H = Hybrid  
Port  
H
H
H
H
X
Y
X
Y
Z
Y
3
3
1
1
Z
Example 1  
Example 2  
Z
Figure D-3. VLAN Hybrid Ports (Examples 1 and 2)  
92 Virtual LANs (VLANs)  
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In Example 3 in Figure D-3B, an untagged frame arrives at the left port  
(1). The switch tags the frame with the PVID for VLAN X (2). Since the  
destination MAC address has already been learned as a tagged station  
on VLAN X on the outgoing port, the frame is sent out with a VLAN X tag.  
Example 4 in Figure D-3B is similar to Example 3 except that both ports  
(incoming and outgoing) have a VLAN X PVID. The untagged frame  
arrives at the incoming port (1) and gets tagged with a VLAN X tag (2).  
The tag may or may not be stripped off as the frame exits the switch,  
depending on how the MAC address of the destination device was  
learned (3). In this example, the destination was learned as an untagged  
station so the tag is stripped. This Hybrid port example is thus essentially  
the same as the Access port case in Figure D-2, Example 1.  
When sending broadcast or unknown DA unicast frames  
out a Hybrid port, the frames are always tagged. The  
VLAN ID of the tag is identical to the VLAN ID that was as-  
signed to the frame when it entered the switch on the  
source port.  
Figure D-3B. VLAN Hybrid Ports (Examples 3 and 4)  
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VLAN Application Example  
A network administrator can use VLANs to define user groups regardless  
of the physical LAN segment to which they are connected. The use of  
Hybrid and Access links can further refine traffic flow in a multi-switch  
environment. Figure D-4 shows the combination of both Hybrid and  
Access links used in a network with three different VLANs. Workstations  
are typically connected to the ELS100-24TXM via Access links. On the  
internal corporate network (backbone), VLAN tags are used to identify the  
VLAN association of frames.  
It is possible to mix VLAN-aware and VLAN-unaware de-  
vices on the same Hybrid switch port. However, this is not  
recommended design practice.  
Figure D-4. VLAN Application Example  
94 Virtual LANs (VLANs)  
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APPENDIX E. CLASS OF SERVICE  
Class of Service support on the ELS100-24TXM allows you to assign  
mission-critical data a higher priority through the switch by delaying less  
critical traffic during periods of congestion. Higher priority traffic through  
the switch is serviced first before lower priority traffic. The Class of  
Service capability of the ELS100-24TXM switch is implemented by a  
priority queuing mechanism. Class of Service is based on the IEEE  
802.1p draft standard specification and allows you to define two priorities  
of traffic on each switch port:  
high  
normal  
As traffic enters the switch, it is assigned to one of the two priority levels  
according to information located in the 802.1Q header tag of the frame  
(see Appendix D, “Virtual LANs”) or according to the incoming port  
number. Frames are then placed into one of two transmit queues on the  
outbound switch port based on their priority level. Frames on the high  
priority queue are transmitted first; when that queue empties, traffic on the  
normal priority queue is transmitted. When priority queuing is being used,  
each frame that passes through the switch contains a priority level in its  
header tag. The priority information may already exist in incoming frames,  
or be assigned by the switch. The determination of individual frame  
priority is based on the following rules:  
1. Incoming tagged frames contain a priority level (range: 0-7)  
2. Incoming non-tagged frames are assigned a preconfigured default  
priority level based on their incoming port (range: 0-7). The  
assignment of priority per port is done via management using the  
Port Priority Default parameter.  
3. Priority levels of frames are compared against a reconfigured global  
priority threshold setting, configured via management using the  
Priority Threshold parameter. Those frames with levels equal to or  
above the threshold are designated high priority traffic; those frames  
with levels below the threshold are designated normal priority traffic.  
The default setting for the threshold parameter is: 4 and above = High  
Priority, 3 and below = Normal Priority.  
Properly configured, the Class of Service mechanism assures that during  
congestion, the highest priority data does not get delayed by normal  
priority traffic. The tagged header in the frame governs individual frame  
priority.  
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Figure E-1 shows priority queuing operating within a switch. Frames  
entering the switch through ports 1 and 4 are tagged as normal traffic and  
placed in a normal priority queue on the outbound port. Frames entering  
through ports 2 and 5 are tagged as high priority traffic and placed in a  
high priority queue on the outbound port. Priority queuing can be  
configured using the Class of Service Configuration Menu in the console  
interface or via SNMP.  
Figure E-1. Class of Service Example  
96 Class Of Service  
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APPENDIX F. ACRONYMS & ABBREVIATIONS  
Term  
10Base-T  
100Base-FX  
100Base-TX  
ANSI  
Definition  
10Mbps twisted-pair Ethernet  
100Mbps fiber Fast Ethernet  
100Mbps twisted-pair Fast Ethernet  
American National Standards Institute  
Application Specific Integrated Circuit  
Bootstrap Protocol  
ASIC  
BootP  
BPDU  
CAT5  
CoS  
Bridge Protocol Data Unit  
Category 5  
Class of Service  
CRC  
Cyclic Redundancy Check  
Carrier Sense Multiple Access/Collision Detection  
Data Communications Equipment (modem)  
Dynamic Host Configuration Protocol  
Data Send Ready  
CSMA/CD  
DCE  
DHCP  
DSR  
DTE  
Data Terminal Equipment  
Data Terminal Ready  
DTR  
ICMP  
IEEE  
Internet Control Message Protocol  
Institute of Electrical and Electronics Engineers  
Internet Protocol  
IP  
LAN  
Local Area Network  
MAC  
Media Access Control  
LED  
Light Emitting Diode  
MDI  
Media Device Interface  
MIB  
Management Information Base  
Port VLAN ID  
PVID  
RFC  
Request for Comment  
RMON  
Remote Monitoring  
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Term  
RXD  
Definition  
Receive Data  
SNMP  
STP  
Simple Network Management Protocol  
Spanning Tree Protocol  
Transmission Control Protocol/Internet Protocol  
Trivial File Transfer Protocol  
Transmit Data  
TCP/IP  
TFTP  
TXD  
UTP  
Unshielded Twisted Pair  
Virtual Local Area Network  
Wide Area Network  
VLAN  
WAN  
98 Acronyms & Abbreviations  
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INDEX  
100Base-FX connectors, 24  
10Base-T/100Base-TX connectors, 23  
10Base-T/100Base-TX pinouts, 77, 79  
802.1D  
Spanning Tree Protocol, 61, 81  
802.1D Bridge, 6  
crossover cable, 23  
cut-through, 7  
D
Data Rate, 75  
802.1p, 95  
Default Gateway  
802.1Q, 90  
setting, 66  
802.3x, 87, 88  
designated bridges, 84  
Download Software Menu, 29, 52  
downloading a software upgrade, 7, 59,  
60  
A
architecture, 2  
auto-negotiation, 9, 45, 46  
configuring, 63  
downloading via TFTP, 60  
downloading via the serial port, 60  
DTE connection, 20  
dynamic MAC addresses, 64  
B
E
base MAC address, 51  
BootP/DHCP, 10  
configuring, 66  
Electrical Specifications, 76  
Environmental Specifications, 75  
bridge, 83, 84  
communicating between bridges,  
84  
F
priority, 36  
Broadcast Cutoff Rate  
configuring, 65  
factory defaults, 27  
fan outlets, 6  
fiber uplink modules described  
EPIM100-2F2,EPIM100-  
2F3,EPIM100-2F4, 24  
flow control, 10, 87, 88  
802.3x, 87, 88  
C
cable  
RS-232, 20  
features, 1  
certification, 75  
forward delay, 36  
Class of Service, 11, 95, 96  
802.1p, 95  
Forwarding Table, 6, 33  
configuring, 64  
configuring, 62  
Forwarding Table Configuration Menu,  
33  
frame tagging, 10, 89  
front panel, 3  
front panel components, 3  
full duplex mode, 10  
Class of Service Configuration Menu, 43  
client/server network application, 12  
communication settings, 21  
community names, 31, 58  
Configuring Port Mirroring, 59  
configuring the switch  
common tasks, 55  
connecting network cables, 22  
console port, 3, 20, 77  
connecting to, 20  
G
General Information Screen, 29, 51  
defined, 3  
pin assignments, 77  
cost component of each port, 83  
H
Hello Time, 36  
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port operation  
configuring, 63  
port priority, 37  
Port Priority Menu, 44  
port specifications, 77  
port statistics screen, 49  
Power Connector, 6  
power cord, 21  
power cord set requirements, 78  
power LED, 3  
defined, 3  
power source, 15  
I
inspecting your shipment, 15  
IP address  
see assigning, 57  
L
LED mode button, 3, 4, 5  
defined, 3  
LEDs, 4, 5, 10  
local backbone application, 13  
login, 26  
logout, 29, 53  
power switch, 6  
powering the switch, 21  
power-up count, 51  
power-up tests, 21, 22  
Priority Default, 44, 62, 95  
Priority Threshold, 43, 63, 95  
M
MAC addresses, 64  
Main Menu, 25, 29  
Max Age, 36  
MDI/MDI-X Crossover Cable Wiring, 78  
MDI/MDI-X crossover cable wiring, 78  
MDI-X, 23  
R
rear panel, 6  
remapping network topology, 84  
Reset, 29, 54  
resetting the switch, 54  
Return to Default Configuration, 29, 53  
RJ-45 connectors, 23  
RMON, 8, 69  
Memory, 76  
menu hierarchy, 28  
MIB, 67, 68, 69, 70, 73  
MIB-II, 68  
Microprocessor, 76  
mirrored port, 32  
Root Bridge, 84  
router, 30, 67  
mirroring port, 32  
modes of access  
read-only and read/write, 26  
mounting ears, 17, 18  
Mounting the Switch, 16, 17  
rack, 18  
S
Save Current Configuration, 29, 53  
SC fiber connector, 24  
screen timeout, 56  
table or shelf, 16  
wall, 17  
serial number, 51  
site requirements, 15  
SNMP, 8, 31, 58, 67, 68, 73  
setting access, 58  
SNMP Configuration Menu, 31  
software download  
N
network configuration status, 57  
see downloading a software upgrade,  
7
software version, 51  
Spanning Tree, 7, 61, 83, 84  
Spanning Tree Configuration Menu, 35  
Spanning Tree Parameters  
configuring, 61  
Spanning Tree Port #n Configuration  
Menu, 38  
P
password protection, 8, 26, 56  
path cost, 37, 38  
physical specifications, 76  
Port Configuration Menu, 46  
port LEDs, 4, 5  
defined, 5  
Port Menu, 29, 45  
port mirroring, 9  
Spanning Tree Port Configuration Menu,  
37  
configuring, 59  
100 Index  
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Spanning Tree Protocol  
defaults, 83  
Standards Compliance  
IEEE, 75  
store-and-forward, 7, 83, 98  
subnet mask, 57  
U
Unshielded Twisted Pair (UTP), 22  
Up Time, 51  
user access, 26  
Switch Configuration Menu, 29, 32  
switch statistics, 58  
Switch Statistics Screen, 29, 47  
Switch Summary Screen, 48  
System Configuration Menu, 29, 30  
V
Ventilation, 15  
VLAN #n Configuration Menu, 41  
VLAN Access ports, 42, 90, 91  
VLAN application example, 94  
VLAN Configuration Menu, 39  
VLAN Egress ports, 40, 41, 91  
VLAN Hybrid ports, 42, 92, 93  
VLAN Menu, 40  
T
Telnet, 25  
connecting, 57  
terminal, 8, 20, 97  
Test LED, 3, 22  
defined, 3  
TFTP download, 61  
TFTP file name, 52  
VLAN Port Menu, 42  
VLANs, 10  
802.1Q, 90  
configuring, 62  
VT100, 8  
W
workgroup hubs, 13  
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102 Index  
ELS100-24TXM  
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DOCUMENT 591-0046-02A  
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