 | Given a set of network requirements, identify the steps to configure an Enhanced IGRP environment and verify proper operation (within described guidelines) of your routers
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| Given an addressing scheme and other laboratory parameters, identify the steps to configure a single-area OSPF environment and verify proper operation (within described guidelines) of your routers
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| Given a set of network requirements, identify the steps to configure a BGP environment and verify proper operation (within described guidelines) of your routers
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| Identify the steps to configure a router for Network Address Translation with overload, static translations, and route maps.
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| Describe the three-layer hierarchical design model and explain the function of each layer: Access, Distribution and Core Given specific requirements, choose the correct routing protocol to meet the requirements
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| Identify the correct IP addressing scheme, including features of IPv6
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| Describe the concepts relating to route summarization and apply them to hypothetical scenarios
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| Identify the steps to verify OSPF operation in a single area
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| Identify the steps to verify OSPF operation in multiple areas
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| Describe the Enterprise Composite Model used for designing networks and explain how it addresses enterprise network needs for performance, scalability and availability
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| Describe the physical, data-link and network layer technologies used in a switched network, and identify when to use each
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| Explain the role of switches in the various modules of the Enterprise Composite Model (Campus Infrastructure, Server Farm, Enterprise Edge, Network Management)
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| Convert CatOS to native IOS on Catalyst switches and manage native IOS images according to best practices
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| Configure access ports for static and multi-VLAN memebership
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| Configure and verify 802.1Q trunks
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| Compare end-to-end and local VLANs, determine when to use each
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| Design a VLAN configuration with VTP to work for a given specific scenario
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| Describe how different WAN technologies can be used to provide remote access to a network, including asynchronous dial-in, Frame Relay, ISDN, cable modem, and DSL
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| Describe traffic control methods used to manage traffic flow on WAN links
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| Configure asynchronous modems and router interfaces to provide network access
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| Configure an ISDN solution for remote access
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| Configure frame relay operation and traffic control on WAN links
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| Design a Cisco remote access solution using asynchronous dial-up technology
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| Plan a Cisco ISDN solution for remote access or primary link back-up
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| Troubleshoot non-functional remote access systems
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| Troubleshoot a VPN system
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| Establish an optimal system baseline
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| Diagram and document system topology
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| Document end system configuration
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| Plan a network documentation system
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| Plan a baseline monitoring scheme
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| Use Cisco IOS commands and applications to identify system problems at all layers
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| Isolate system problems to one or more specific layers |
