Course Summary
After taking this course, you will be able to:
• Design EIGRP internal routing for the enterprise network
• Design OSPF internal routing for the enterprise network
• Design IS-IS internal routing for the enterprise network
• Design a network based on customer requirements
• Design BGP routing for the enterprise network
• Describe the different types and uses of MP-BGP address families
• Describe BGP load sharing
• Design a BGP network based on customer requirements
• Decide where L2/L3 boundary will be in your Campus network and make design decisions
• Describe layer 2 design considerations for Enterprise Campus networks
• Design a LAN network based on customer requirements
• Describe layer 3 design considerations in an Enterprise Campus network
• Cisco SD-Access fundamental concepts
• Describe Cisco SD-Access Fabric Design
• Design an SD-Access Campus Fabric based on customer requirements
• Design service provider-managed VPNs
• Design enterprise-managed VPNs
• Design a resilient WAN
• Design a resilient WAN network based on customer requirements
• Examine the Cisco SD-WAN architecture
• Describe Cisco SD-WAN deployment options
• Design Cisco SD-WAN redundancy
• Explain the basic principles of QoS
• Design QoS for the WAN
• Design QoS for enterprise network based on customer requirements
• Explain the basic principles of multicast
Designing rendezvous point distribution solutions
• Describe high-level considerations when doing IP addressing design
• Create an IPv6 addressing plan
• Plan an IPv6 deployment in an existing enterprise IPv4 network
• Describe the challenges that you might encounter when transitioning to IPv6
• Design an IPv6 addressing plan based on customer requirements
• Describe Network APIs and protocols
• Describe YANG, NETCONF and RESTCON
Module 1: Designing EIGRP Routing
• Overview: Enhanced Interior Gateway Routing Protocol (EIGRP) design principles.
• Key Points:
• EIGRP fundamentals and metrics
• Path selection and load balancing
• Design considerations for scalability and performance
Module 2: Designing OSPF Routing
• Overview: Open Shortest Path First (OSPF) routing protocol design.
• Key Points:
• OSPF operation and types (e.g., OSPFv2, OSPFv3)
• Area design and routing optimization
• Techniques for minimizing OSPF convergence time
Module 3: Designing IS-IS Routing
• Overview: Intermediate System to Intermediate System (IS-IS) protocol design.
Key Points:
• IS-IS fundamentals and advantages
• Area and level design
• Integration with other routing protocols
Module 4: Designing BGP Routing and Redundancy
• Overview: Border Gateway Protocol (BGP) routing and redundancy strategies.
• Key Points:
• BGP concepts, path attributes, and route selection
• Redundancy and failover techniques
• Inter-domain routing considerations
Module 5: Understanding BGP Address Families
• Overview: Different address families in BGP.
• Key Points:
• Types of address families (e.g., IPv4, IPv6, VPNv4)
• Use cases and configuration
• Interactions between different address families
Module 6: Designing the Enterprise Campus LAN
• Overview: Design principles for enterprise campus LANs.
• Key Points:
• Campus LAN architecture (Core, Distribution, Access layers)
• Layer 2 and Layer 3 design considerations
• Best practices for scalability and performance
Module 7: Designing Layer 2 Campus
• Overview: Layer 2 design strategies for campus networks.
• Key Points:
• VLANs, Spanning Tree Protocol (STP), and Virtual Trunking Protocol (VTP)
• Layer 2 security and redundancy
• Design for scalability and high availability
Module 8: Designing Layer 3 Campus
• Overview: Layer 3 design considerations for campus networks.
• Key Points:
• Routing protocols (e.g., EIGRP, OSPF) in a Layer 3 design
• IP addressing and subnetting strategies
• Design for inter-VLAN routing and redundancy
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