Cisco Systems MC-607 manual Downstream and Upstream Data Transfer, Bridging Applications, MC-614

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Configuring Subscriber-End Broadband Access Router Features

Subscriber-End Broadband Access Router Data Operations

Partitioning the upstream plant into smaller segments significantly reduces the number of potential ingress sources and failure points. The CMTS divides the cable plant into downstream channels and upstream segments or clusters of nodes.

Downstream and Upstream Data Transfer

When operating normally, the Cisco uBR900 series cable access router receives data addressed to it from the CMTS. The router reads the address in the header of the message, filters the message, and forwards it to the appropriate device at the subscriber site.

Note Bandwidth at the subscriber site is shared by the active data users connected to the network segment.

For upstream data transfer, the Cisco cable access router uses a request/grant mechanism to obtain upstream bandwidth. The CMTS configures, via MAC messages, upstream parameters associated with transmissions from all Cisco cable access routers on the system. Service class registration is granted based on class assignment and load provisioning. Upstream channels are time-slotted and divided into basic scheduling time units.

The CMTS informs the Cisco cable access router of minislot structures on the upstream channel. Some minislots are marked as contention-based—shared by routers to make bandwidth (timeslot) requests with the CMTS. Others are grouped into unicast grants for specific routers to send their data bursts. Yet others are grouped into maintenance slots for keepalive messages from routers to the CMTS.

Bridging Applications

In bridging applications, the Cisco uBR900 series cable access router acts as a transparent bridge for up to 254 devices, depending on the version of Cisco IOS software you are using. Older versions of software allow a maximum of three CPE devices to be bridged. The cable access router is connected to the Internet through the coaxial cable interface. All four 10BaseT Ethernet ports are treated as one Ethernet interface by the Cisco IOS software. The IP addresses for the CPE devices and the coaxial cable interface are typically in the same subnet, although this is not a requirement.

Figure 111 shows the Cisco uBR900 series cable access router in a typical bridging environment. The Cisco uBR900 series complies with the DOCSIS standards for interoperable cable access routers; it supports full transparent bridging and DOCSIS-compliant transparent bridging.

Note If the attached CPE devices and the coaxial cable interface are in different IP subnets, the cable interface must have a secondary address.

Cisco IOS Multiservice Applications Configuration Guide

MC-614

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Contents Configuring Subscriber-End Broadband Access Router Features MC-607MC-608 Cisco IOS Software Feature SetsSubscriber-end Overview MC-609 Base IP Bridging Feature SetHome Office Easy IP Feature Set MC-610 Small Office Feature SetTelecommuter Feature Set Operating Modes MC-611MC-612 Data SpecificationsDescription Downstream Values Upstream Values Service Assignments MC-613MC-614 Downstream and Upstream Data TransferBridging Applications Routing Applications MC-615L2TP Protocol Easy IPDhcp Server Network Address Translation and Port Address TranslationVoice over IP Operations MC-617MC-618 Simplified VoIP over Cable NetworkVoice Compression and Decompression MC-619Protocol Stack MC-620Subscriber-End Broadband Access Router Voice Specifications Sgcp Protocol StackMetric Value MC-621Backup Pots Connection MC-622MC-623 Docsis Baseline PrivacyIPSec Network Security Triple Data Encryption Standard FirewallNetRanger Support-Cisco IOS Intrusion Detection MC-624Subscriber-End Broadband Access Router Configuration Options MC-625MC-626 Event Description MC-627Sequence Event Description MC-628MC-629 MC-630 Cable Modem Initialization Flowchart MC-631Subscriber-End Broadband Access Router Basic Troubleshooting MC-632MC-633 WaitforlinkupstateMC-634 UBR924# show controllers cable-modem 0 mac ?MC-635 Event 1-Wait for the Link to Come UpEvent 2-Scan for a Downstream Channel, then Synchronize MC-636 Event 4-Start Ranging for Power AdjustmentsEvent 3-Obtain Upstream Parameters Event 5-Establish IP Connectivity MC-637Event 6-Establish the Time of Day Event 7-Establish SecurityEvent 8-Transfer Operational Parameters Event 9-Perform RegistrationMC-639 Event 11-Enter the Maintenance StateEvent 10-Comply with Baseline Privacy Subscriber-End Broadband Access Router Configuration Tasks MC-640MC-641 Configuring a Host Name and PasswordCommand Purpose Configuring Ethernet and Cable Access Router Interfaces MC-642Configuring Routing MC-643Verifying Routing MC-644Configuring Bridging MC-645MC-646 Reestablishing DOCSIS-Compliant Bridging MC-647Verifying DOCSIS-Compliant Bridging MC-648MC-649 Customizing the Cable Access Router InterfaceUsing Multiple PCs with the Cable Access Router Basic Internet Access Bridging Configuration Example MC-650Basic Internet Access Routing Configuration Example MC-651IP Multicast Routing Configuration Example MC-652VoIP Bridging Using H.323v2 Configuration Example MC-653VoIP Routing Using H.323v2 Configuration Example MC-654NAT/PAT Configuration Example MC-655VoIP Bridging Using Sgcp Configuration Example MC-656IPSec Configuration Example MC-657L2TP Configuration Example MC-658MC-659 MC-660
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