CCNP (Cisco Certified Network Professional)

The CCNP certification (Cisco Certified Network Professional) indicates advanced or journeyman knowledge of networks. With a CCNP, a network professional can install, configure, and operate LAN. WAN, and dial access services or Organizations with networks from 100 to more than 500 nodes, including but not limited to these protocols: (P, 1GRP, IPX.

Async Routing, AppleTalk, Extended Access Lists, IP RIP, Route Redistribution, RIP, Route Summarization. OSPF. VLSM. fflGP, Serial. Frame Relay, ISDN, ISL, X.25. DDR, PSTN, PPP, VLANs, Ethernet, Access Lists, 802.10, FDDJ, Transparent and Translational Bridging.

Content:

• Routing Principles
• * List the key information routers need to route data
• * Describe classful and classless routing protocols
• * Compare distance vector and link-state protocol operation
• * Describe the use of the fields in a routing table
• * Analyze a routing table, and test connectivity using accepted troubleshooting
• Techniques
• Extending IP Addresses
• * Use VLSMs to extend the use of the IP addresses
• * Explain if route summarization is or is not possible for a specific addressing scheme
• * Configure an IP helper address to manage broadcasts Configuring OSFP in a
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• Single Area
• Explain why OSPF is better than RIP in a large internet work
• Explain how OSPF discovers, chooses, and maintains routes
• Explain how OSPF operates in a single area NBMA environment
• Configure OSPF for proper operation in a single area
• Verify OSPF operation in a single area
• Interconnecting Multiple OSFP Areas
• Describe the issues with interconnecting multiple areas and how OSPF addresses each
• Explain the differences between the possible types of areas, routers- and LSAs
• Explain how OSPF supports the use of VESM
• Explain how OSPF supports the use of route summarization in multiple areas
• Explain how OSPF operates in a multiple area NBMA environment
• Configure a multi area OSPF network
• Verify OSPF operation in multiple areas
• Configuring EIGRP
• Describe Enhanced IGRP features and operation
• Explain how EIGRP discovers, chooses, and maintains routes
• explain how EIGRP supports the use of VLSM
• Explain how F.IGRP operates in an NBMA environment
• Explain how FTGRP supports the us>e of route summarization
• Describe how EiCRP supports large network!-
• Configure Enhanced iGRP
• Verify Enhanced IGRP operation
• Configuring Basic Border Gateway Protocol
• Describe BGP features and operation
• Describe how to connect to another autonomous system using an alternative to BGP, static routes
• explain how RGP policy-based routing functions within an autonomous system
• Explain how BGP peering functions.
• Describe BGP communities and peer groups
• Describe and configure external and internal BGP
• Describe BGP synchronization
• Configure a UGP environment and verify proper operation
• Implementing BGP in Scalable Networks
• Describe the scalability problems associated with internal RGP
• Explain and configure BGP route reflectors
• Describe and configure policy control in BGP using prefix lists
• Describe methods to connect to multiple TSPs using BGP
• explain the use of redistribution between UGP and interior Gateway Protocols (IGPs)
• Configure a multihomed BGP environment and verify proper operation
• Optimizing Routing Update Operation
• Select and configure the different ways to control ruining update Traffic
• Configure route redistribution in a network that does not have redundant paths between dissimilar routing processes Configure route redistribution in a network that has redundant paths between dissimilar routing processes
• Resolve path selection problems that result in a redistributed network
• Verify route redistribution
• Configure policy-based routing using route maps
• Configure redistribution between different routing domains and verify proper operation
• Configure policy-based routing and verify proper operation