ccnp r&s certification exam topics and syllabus | ccnp
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CCNP R&S certification exam topics and syllabus | CCNP online exam
642-902 ROUTE
The Implementing Cisco IP Routing (ROUTE642-902) is a qualifying exam for the Cisco Certified Network Professional
CCNP, Cisco Certified Internetwork Professional CCIP, and Cisco Certified Design Professional CCDP certifications. The
ROUTE 642-902 exam will certify that the successful candidate has the knowledge and skills necessary to use advanced
IP addressing and routing in implementing scalable and secure Cisco ISR routers connected to LANs and WANs. The
exam also covers configuration of secure routing solutions to support branch offices and mobile workers.
642-813 SWITCH
Implementing Cisco IP Switched Networks (SWITCH 642-813) is a qualifying exam for the Cisco Certified Network
Professional CCNP, and Cisco Certified Design Professional CCDP certifications. The SWITCH 642-813 exam will certify
that the successful candidate has important knowledge and skills necessary to plan, configure and verify the
implementation of complex enterprise switching solutions using Cisco's Campus Enterprise Architecture. The SWITCH
exam also covers secure integration of VLANs, WLANs, voice and video into campus networks.
642-832 TSHOOT
Troubleshooting and Maintaining Cisco IP Networks (TSHOOT 642-832) is a qualifying exam for the Cisco Certified
Network Professional CCNP, certification. The TSHOOT 642-832 exam will certify that the successful candidate has
important knowledge and skills necessary to (1) plan and perform regular maintenance on complex enterprise routed and
switched networks and (2) use technology-based practices and a systematic ITIL - compliant approach to perform network
troubleshooting.
Topics covered in CCNP ROUTE, Switch &Tshoot Exam
ENHANCED INTERIOR GATEWAY ROUTING PROTOCOL
Implement an EIGRP based solution, given a network design and a set of requirements: Determine network
resources required for implementing EIGRP in a network, creation of an EIGRP implementation planand EIGRP
verification plan, Configuring EIGRP routing, verifying that an EIGRP solution was implemented properly using show and
debug commands, and documentation of the verified results for an EIGRP implementation.
OPEN SHORTEST PATH FIRST
Implement a multi-area OSPF Network, given a network design and a set of requirements: Determine network
resources required for implementing OSPF on a network, creation of OSPF implementation and verification plan,
configuration of OSPF routing, verifying that the OSPF solution has been implemented properly using show and debug
commands, and documentation of the verified results for the OSPF implementation plan.
BORDER GATEWAY PROTOCOL
Implement an eBGP based solution, given a network design and a set of requirements:Determine network
resources required for implementing eBGP on a network, creating an eBGP implementation plan and verification plan,
configuring eBGP routing, verifying that the eBGP solution has been implemented properly using show and debug
commands, and documenting the verified results for the eBGP implementation plan.
Ipv6 BASED SOLUTIONS
Implement an IPv6 based solution,given a network design and a set of requirements: Determine network resources
required for implementing IPv6 on a network, creation of IPV6 implementation and verification plan, configuration of IPV6
routing, configuration of IPV6 interoperation with IPV4, verifying that IPV6 solution was implemented properly using show
and debug commands, and documenting verified results for an IPV6 implementation plan.
WIRELESS & VOICE’s REQUIREMENT FROM SWITCHING
Prepare infrastructure to support advanced Services: Implementation of wireless extension of layer 2 solution,
implementation of VoIP and video support solution.
HIGH AVAILABILITY REDUNDANCY PROTOCOLS
Implement High Availability, given a network design and a set of requirements: Determination of network resources
required for implementing high availability on network, creation of high availability implementation and high verification
plan, VRRP, BLGP, HSRP, Implementation of first hop redundancy protocols, implementation of switch supervisor
redundancy, verifying that the high availability solution has been implemented properly using show and debug commands,
and documentation of results of high availability implementation and verification.
ENHANCED INTERIOR GATEWAY ROUTING PROTOCOL
Implement an EIGRP based solution, given a network design and a set of requirements: Determine network
resources required for implementation of EIGRP in a network, creation of EIGRP implementation and verification plan,
configuration of EIGRP routing, verifying that EIGRP solution implemented is proper using show and debug commands,
and documentation of the verified results for EIGRP implementation.
OPEN SHORTEST PATH FIRST
Implement a multi-area OSPF Network, given a network design and a set of requirements: Determining the required
network resources required for implementing OSPF on a network, creation of OSPF implementation and verification plan,
configuration of OSPF routing, verifying OSPF solution has been properly implemented using show and debug
commands, and documenting the verified results for the OSPF implementation plan.
BORDER GATEWAY PROTOCOL
Implement an eBGP based solution, given a network design and a set of requirements:Determine network
resources required for implementing eBGP on a network, creating an eBGP implementation and verification plan,
configuring eBGP routing, verifying the eBGPsolution has been implemented properly using show and debug commands,
and documentation of the verified results for eBGP implementation plan.
Ipv6 BASED SOLUTIONS
Implement an IPv6 based solution, given a network design and a set of requirements: Determine network resources
required for implementing IPv6 on a network, creation of IPV6 implementation and verification plan, configuration of IPV6
and its interpolation with IPV4, verifying that the IPV6 solution has been implemented properly using show and debug
commands, and documentation of the verified results for IPV6 implementation plan.
REDISTRIBUTION
Implement an IPv4 or IPv6 based redistribution solution, given a network design and a set of requirements:
Creating a redistribution implementation plan based upon the results from a redistribution analysis, creating a
redistribution verification plan and redistribution solution, verifying that the redistribution has been implemented,
documentation of results of redistribution implementation and verification plan, identifying the differences between
implementation of IPV4 and IPV6 redistribution solution.
PATH CONTROL
Implement Layer 3 Path Control Solution: Creating a layer 3 path control implementation plan based on the results of
the redistribution analysis, creating layer 3 path control verification plan, configuration of layer 3 path control, verifying that
layer 3 path control was implemented, documenting the results path control implementation and verification plan for layer
3, Implement basic teleworker and branch services, describe broadband technologies, Configuring basic broadband
connections, describe basic VPN technologies, configure GRE, and Describe branch access technologies.
We hope this article solved the following questions:
Course content of CCNP ROUTE, SWITCH and TSHOOT certifications.
Syllabus and topics of CCNP R&S certification.
Syllabus/Topics in ROUTE 642-902.
Syllabus/Topics in SWITCH 642 - 813.
Syllabus/Topics in TSHOOT 642 - 832.
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