Designing Cisco Enterprise Networks (ENSLD)

Course Objectives 

By the end of this training, participants 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 different types and uses of MP-BGP address families

• Describe BGP load sharing

• Design a BGP network based on customer requirements

• Decide L2/L3 boundaries in Campus networks 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

• Examine Cisco SD-Access fundamental concepts

• Describe Cisco SD-Access Fabric Design

• Design a Software-Defined Access (SD-Access) Campus Fabric based on customer requirements

• Design service provider-managed VPNs

• Design enterprise-managed VPNs

• Design a resilient WAN network based on customer requirements

• Examine Cisco SD-WAN architecture

• Describe Cisco SD-WAN deployment options

• Design Cisco SD-WAN redundancy

• Explain basic principles of QoS

• Design QoS for WAN and enterprise network based on customer requirements

• Explain basic principles of multicast

• Design rendezvous point distribution solutions

• Describe high-level considerations for IP addressing design

• Create an IPv6 addressing plan

• Plan IPv6 deployment in an existing IPv4 network

• Describe challenges when transitioning to IPv6

• Design an IPv6 addressing plan based on customer requirements

• Describe Network APIs and protocols

• Describe YANG, NETCONF, and RESTCONF

Course Outline

• EIGRP, OSPF, IS-IS Enterprise Routing Design

• BGP and MP-BGP Enterprise Routing Design

• Layer 2 / Layer 3 Campus Network Design

• SD-Access Fundamentals and Fabric Design

• VPN Design (Service Provider and Enterprise-managed)

• Resilient WAN Design

• Cisco SD-WAN Architecture and Redundancy Design

• Quality of Service (QoS) Design for WAN and Enterprise Networks

• Multicast Design and Rendezvous Point Distribution

• IP Addressing and IPv6 Deployment Design

• Network APIs and Automation Protocols (YANG, NETCONF, RESTCONF)