3Com 6000 Defining a To define a multicast tunnel Multicast Tunnel, Removing a Multicast Tunnel

Page 37

Administering Multicast Tunnels

A-7

Defining a To define a multicast tunnel:

Multicast Tunnel

Top-Level Menu

 

 

1

system

interface

 

 

 

ethernet

route

dvmrp

 

 

fddi

arp

igmp

display

 

atm

 

atmArpServerinterface

define

2

bridge

multicasttunnel

ip

 

 

remove

 

udpHelper routeDisplay

 

ipx

 

routing

cacheDisplay

 

appletalk

icmpRouterDiscovery

 

snmp

rip

 

 

3

analyzer

ping

 

 

 

 

 

script

statistics

 

 

 

logout

 

 

 

 

From the top level of the Administration Console, enter:

ip multicast tunnel define

Enter the index number(s) of the interface(s) with which you want to associate a multicast tunnel.

Enter the IP address of the destination multicast router.

The IP address of the destination multicast router must be a remote address. The destination router cannot be directly connected to the same subnetworks as the local IP address.

4Enter the DVMRP metric value of the tunnel.

5Enter the Time To Live (TTL) threshold of the tunnel.

6Enter the rate limit of the tunnel.

Example:

Enter an IP interface index [1]: 2

Enter remote IP address: 192.9.200.40

Enter tunnel DVMRP metric [1]: 1 Enter tunnel TTL threshold [1]: Enter tunnel rate limit [0]:

Removing a Multicast Tunnel

Top-Level Menu

 

 

 

 

1

system

 

 

 

 

 

 

 

 

 

ethernet

interface

 

 

 

 

 

 

fddi

route

 

dvmrp

 

 

 

 

 

atm

arp

 

igmp

 

display

2

bridge

atmArpSErver

 

define

ip

 

 

 

interface

 

 

 

multicast tunnel

remove

 

 

ipx

udpHelper

routeDisplay

 

 

appletalk

routing

cacheDisplay

 

 

snmp

icmpRouterDiscovery

 

 

 

 

 

analyzer

rip

 

 

 

 

 

 

script

ping

 

 

 

 

 

 

logout

statistics

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

To remove an IP multicast tunnel:

From the top level of the Administration Console, enter:

ip multicast tunnel remove

Enter the index number(s) of the interfaces associated with the tunnel you want to remove.

Example:

Enter an IP interface index [1]: 2

The tunnel is removed.

Image 37
Contents LANplex Extended Switching Software Revision December 2 Lanplex 6000 Software Installation Release NotesUnited States Government Legends Contents IP Multicast Routing Overview Lanplex 6000 Extended Switching Software Updating Your System Software Remove diskette #2 using the following command Remove diskette #1 using the following commandRemove diskette #3 using the following command Following files should be in your /usr/lp6000R directory Remove diskette #4 using the following commandREADME.text Mibs folderLMM+ to the LANplex 6000 system Documentation User801-00264-000 Individual modules ship with their installation guides801-00192-000 801-00190-000Revision 8.0.0? What’s New atSoftware Changes Corrections implemented at this releaseWhat’s New at Revision 8.0.0? Interface state is displayed as up if Interface state is displayed as down ifFrom Fddi Network System upTime is displayed New Fddi MAC Statistic AddedExample summary display of Fddi MAC information New Fields Added to Fddi MAC Summary and DetailExample detail display of Fddi MAC information SrHopLImit System Issues Known Problems Received ftpCommand Quit not completed errno Lanplex 6000 Extended Switching Software Snmp MIB Files Support for the Fddi Switching Module FSM Efsm Lanplex 6000 Extended Switching Software Country Telephone Number Japan Lanplex 6000 Extended Switching Software IP Multicast Routing Enabling Enabling and Disabling DvmrpDisabling Igmp Methods to make this determinationMulticast Administering IPInterfaces Example multicast interface configuration Rate LimitEnabling Multicast Interfaces Disabling Multicast InterfacesMulticast Tunnels AdministeringRemoving a Multicast Tunnel Defining a To define a multicast tunnel Multicast TunnelTunnel is removed Table A-1 describes the fields in the route display Displaying RoutesYou are prompted for the multicast source address Displaying the Multicast CacheFollowing display shows the multicast cache configuration Table A-2 describes the fields in the CacheDisplay Appendix a IP Multicast Routing
Related manuals
Manual 24 pages 21.07 Kb Manual 60 pages 26.74 Kb Manual 34 pages 32.11 Kb

6000 specifications

The 3Com 6000 series, launched in the late 1990s, was a significant advancement in networking technology, designed to meet the growing demands of enterprise-level networking. This series provided powerful solutions for businesses seeking reliable, efficient, and scalable networking capabilities.

At its core, the 3Com 6000 series featured a modular design, allowing companies to customize their networks according to specific needs. This flexibility meant that organizations could add or replace components as their networking requirements evolved, ensuring investment protection and a tailored approach to connectivity. The ability to scale was particularly important for businesses that anticipated growth or change in operational demands.

One of the standout features of the 3Com 6000 was its advanced switching capabilities. The series employed high-performance switching technologies that supported various protocols, including Fast Ethernet and Gigabit Ethernet. This versatility made it suitable for diverse environments, from small offices to large corporate settings. The 3Com 6000 switches were engineered to deliver high throughput and low latency, crucial for applications requiring real-time data transfer.

The series also supported a range of network management tools, enhancing operational efficiency. With SNMP (Simple Network Management Protocol) support, network administrators could easily monitor and manage network performance, troubleshoot issues, and configure devices from a centralized location. This capability significantly streamlined network operations, reducing downtime and optimizing resource allocation.

Security was another significant concern addressed by the 3Com 6000. The series incorporated robust security features, including access control lists (ACLs) and VLAN (Virtual Local Area Network) support. These features allowed network administrators to segment traffic and enforce security policies, protecting sensitive data and ensuring compliance with organizational standards.

Moreover, the 3Com 6000 series was designed with energy efficiency in mind, reflecting a growing awareness of the environmental impact of IT infrastructure. By implementing power-saving features, the series helped organizations reduce their overall energy consumption while maintaining optimal network performance.

In summary, the 3Com 6000 series stood out for its modularity, advanced switching capabilities, extensive management tools, strong security features, and energy efficiency. It represented a forward-thinking solution for enterprises aiming to build robust network infrastructures capable of supporting a wide range of applications and services. As organizations increasingly relied on networked systems, the 3Com 6000 played a crucial role in shaping the landscape of enterprise networking.