Cisco Systems Network Router manual Selecting Static Addresses for UNI Ports

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Chapter 3 Address and Closed User Group Planning

Planning Address Configuration Settings

To enable communications over AINI and IISP links, static addresses must be configured on the end of each link as described in the following guides:

Cisco MGX 8850 (PXM1E/PXM45), Cisco MGX 8950, Cisco MGX 8830, and Cisco MGX 8880 Configuration Guide, Release 5

Cisco SES PNNI Controller Software Configuration Guide, Release 3

There is no default prefix for AINI and IISP links, and because these protocols are used on separate link types (not PNNI links), there is no requirement to configure prefixes for AINI and IISP links. However, the PNNI database within each network does store the static addresses, so if there are multiple static addresses that have the same prefix, you can improve PNNI routing efficiency and save configuration time by configuring a summary address prefix that covers multiple ATM addresses. The summary address prefix is a partial ATM address and represents all destinations for which the most significant bytes of the ATM address match the summary address.

When planning AINI and IISP prefixes for your WAN, consider the following possibilities:

If you are connecting to a network managed by another authority, that authority will probably issue the destination addresses to you.

The same address or summary address can be configured on more than one port, and multiple addresses can be configured on each port.

Because the destination devices are not part of the PNNI network, IISP address prefixes do not have to conform to the PNNI level, peer group ID, or node prefix.

Enter any AINI or IISP prefixes into the Port Address Worksheet, Table 3-5, which appears at the end of this chapter.

Selecting Static Addresses for UNI Ports

When CPE devices do not support ILMI, they cannot automatically gain an ATM address from the node, so you must configure a static ATM address on the port that leads to the CPE. You can add up to 255 static addresses on each port, if this number remains within the maximum addresses per node limit.

Multiple ports can be configured with the same static address, but there should be just one CPE that uses each address. When a port leads to multiple CPE that use a common prefix, you can use a summary address to create a single entry that routes to multiple CPE.

Enter the static addresses or summary addresses into the Port Address Worksheet, Table 3-5, which appears at the end of this chapter.

Additional Guidelines for Creating an Address Plan

The following are guidelines for creating an address plan:

Select the lowest-level PNNI level that will enable future expansion.

Use PNNI levels that fall on 8-byte boundaries. This improves scalability and makes the PNNI level number easier to work with.

Use default values for as many entities as possible.

Use AINI and IISP links to connect to public WANs.

Do not use Cisco node address defaults in public WANs.

 

 

Cisco PNNI Network Planning Guide for MGX and SES Products, Release 5

 

 

 

 

 

 

Part Number OL-3847-01 Rev. D0, April, 2004

 

 

3-13

 

 

 

 

 

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Contents Text Part Number OL-3847-01 Rev. D0 Corporate HeadquartersCopyright 2003, Cisco Systems, Inc All rights reserved Iii N T E N T SCompatible Standards Worksheets Part Number OL-3847-01 Rev. D0, April Vii G U R E SViii B L E S Part Number OL-3847-01 Rev. D0, April Objectives AudienceOrganization Xii ConventionsXiii DocumentationDocumentation Notes for the April 2004 Product Releases Related DocumentationXiv Technical Manual Order of UseTerms Technical Manual Titles and DescriptionsXvi Xvii Xviii Xix Reference Guides Xxi Xxii Document Title DescriptionXxiii Xxiv Xxv Xxvi Xxvii Obtaining DocumentationCisco.com Ordering DocumentationChanges to This Document Chapter ChangesXxviii Opening a TAC Case Obtaining Technical AssistanceDocumentation Feedback Cisco TAC WebsiteObtaining Additional Publications and Information TAC Case Priority DefinitionsXxx Xxxi Xxxii Pnni Network Database Introduction to PnniSingle Peer Group Topology Example Single Peer Group Topology Hierarchical Pnni Network TopologyPeer group Ppeer Simple Node Representation Peer Group LeadersSimple Node Representation Complex Node RepresentationPnni Internetworking with Aini Border NodesHierarchical Pnni Network Benefits Example Pnni Internetworking with Aini Topology Pnni Internetworking with IispPart Number OL-3847-01 Rev. D0, April Compatible Standards SpecificationsPXM45/B PXM45Capabilities PXM1ESES Capabilities SESDAX Spvc Connection Limit AdjustmentsConnection Type Switch Connections CWM Endpoints SVCInstall Redundant Hardware in Switches Parallel Links Between Adjacent SwitchesPhysical Network Planning Multiple Paths Between Network Nodes Planning Guidelines for Individual Peer GroupsMultiple Links Between Adjacent Peer Groups Multiple Links to an External NetworkPlanning Guidelines for Hierarchical Networks Planning Guidelines for Peer Group LeadersPlanning Guidelines for Border Nodes Part Number OL-3847-01 Rev. D0, April Address Planning Overview Address and Closed User Group PlanningPnni Addressing Example Selecting an ATM Address Format Planning Address Configuration SettingsESI SEL IDP DSP Supported Address FormatsGuidelines for Selecting an Address Format ATM Field Description Default ValuesDCC Selecting a Pnni LevelAddress Registration Authorities Category Type Authorities4shows an example topology of a Pnni MPG WAN Part Number OL-3847-01 Rev. D0, April Level Peer Group ID Portion of ATM Address Bytes LengthSelecting the Pnni Peer Group ID Default Peer Group ID20-byte Node Address Selecting the ATM AddressSelecting the Ilmi Address Prefix Selecting the Spvc Address PrefixPlanning Address Prefixes for Aini and Iisp Links Additional Guidelines for Creating an Address Plan Selecting Static Addresses for UNI PortsClosed User Group Example Closed User Group OverviewPlanning CUG Configuration Settings Selecting an Interlock CodeSelecting an Index Selecting CPE Addresses Selecting Internal CUG Access OptionsSpecifying a Preferential CUG Selecting External CUG Access OptionsWorksheets Selecting a Default CUG AddressCUG Part Number OL-3847-01 Rev. D0, April Administrative Weight How MGX and SES Nodes Select RoutesLink and Route Metrics Cell Transfer Delay Cell Delay VariationAvailable Cell Rate Shortest Path Table Routing Maximum Cell RateShortest Path Tables Traffic Metric Class of Service TablesService Class Acronym Definition Guidelines CTD CDVHow SPVCs and SPVPs use the SPTs How SVCs and SVPs use the SPTsHow MGX and SES Nodes Select Links On-Demand RoutingLoad Balancing for SPT and On-Demand Routing CLR0+12 Additional Routing Features in MGX and SES NodesService Preferred RoutingGrooming Priority RoutingNodal Point-to-Multipoint Branch Restriction Soft ReroutingPriority Bumping Blocking Pass-Through ConnectionsAXSM-XG AXSM/AAXSM/B AXSM-EFarthest Node Branching Part Number OL-3847-01 Rev. D0, April Ansi APS ABRAesa AiniIN-2 P2MPCBR CTDIN-3 CUGCWM DININ-4 IN-5 PGLPnni MGX SESIN-6 IN-7 UBRUNI TACIN-8
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