CONTENUTI
Designing EIGRP Routing
- Describe Scalabale EIGRP Designs and Fast Convergence
- Examine EIGRP Autonomous Systems and Layered Designs
- Describe Scalable EIGRP Hub-and-Spoke and Stub Designs
- Describe EIGRP Convergence Features
Designing OSPF Routing
- OSPF Neigbour Adjacencies and LSAs
- OSPF Scalability Issues
- Define Area and Domain Summarization
- OSPF Full and Partial Mesh
- OSPF Convergence
- Design Case Study Activity: Designing an Enterprise Connectivity
Designing IS-IS Routing
- Describe IS-IS Routing Protocol
- Examine IS-IS Adjacencies and Authentication
- Describe IS-IS and OSPF Similarities
- Explore IS-IS Routing Logic
- Describe IS-IS Operations
- Examine Integrated IS-IS for IPv6
Designing BGP Routing and Redundancy
- Identify IBGP Scalability Issues
- BGP Route Reflector Terminology
- Describe BGP-Split-Horizon
- Route Reflector Loop Prevention Mechanisms
- BGP Confederation Loop Prevention Mechanisms
- Compare BGP Load Sharing Designs
- Examine Dual and Mulithomed BGP Designs
Explorig BGP Address Families and Attributes
- BGP Address Families and Attributes
- BGP Route Selection Preferences
- Describe BGP Communities
- Examine a Case Study - Designing a Dual-Stack MP-BGP Environment
- Design Case Study Activity: Designing an Enterprise Network with BGP Internet Connectivity
Designing an Enterprise Campus LAN
- Compare End-to-End and Local VLANs
- Describe the Layer 3 Access Layer
- Examine a Case Study
- Describe Cloud Deployment Models
Designing Layer 2 Campus
- Describe VLANs, Trunks and VTP
- Understanding the Spanning Tree Protocol
- Understanding Layer 2 Security Techniques
- Understand MST, POE, and EnergyWise
- Describe Port Aggregation Considerations
- First-Hop Redundancy
- Describe Network Requirements of Applications
- Design Case Study Activity: Designing an Enterprise Campus LAN
Designing a Layer 3 Campus
- The Benefits of Building Triangles
- Routing Convergence
- Describe Routing Protocols and Summarization
- Describe Default Routes, Redistribution and Filtering
- Examine Passive Interface, Routing Convergence and Routing IPv4 and IPv6
- Describe Network Management Best Practices
Discovering the Cisco SD-Access Architecture
- Cisco Software Defined Access Overview
- Cisco Software-Defined Access Architecture
- Cisco SD-Access Node Roles
- Cisco Software-Defined Access Definition and Benefits
- Examine the Fabric Enabled Wireless LAN
- Role of Cisco SD-Access in Cisco DNA
Exploring Cisco SD-Access Fabric Design
- Describe SD-Access Fabric Constructs
- Describe Design Requirements of Underlay Network
- Describe DHCP and Security Solutions for the Fabric Domain
- Describe Cisco SD-Access Wireless Fabric Constructs
Exploring Cisco SD-Access Site Design Strategy and Considerations
- Cisco SD-Access Site Reference Models
- Cisco SD-Access Distributed Campus Considerations
- Migration to Cisco SD-Access
- Design Case Study Activity: Designing Cisco SD-Access in the Enterprise
Discovering Service Provider-Managed VPNs
- WAN Connection Decision Points
- Describe Layer 3 MPLS VPN
- Use Routing Protocols at the PE-CE
Designing Enterprise-Managed VPNs
- Enterprise-Managed VPNs Overview
- Describe GRE, mGRE and IPsec
- Describe Dynamic VTI, GET VPN, SSL VPN and Flex VPN
- Describe DMVPN
- Describe EIGRP DMVPN and DMVPN Scaling
Designing WAN Resiliency
- WAN Design Overview
- Describe Common MPLS WNA Design Models
- Describe Common Layer 2 WNA Design Models
- Describe Cmmon VPN WAN Design Models
- Describe Cellular VPN Design Models
- Remote Site Local Internet Connectivity
- Remote-Site LAN Design
- WAN Connectivity Case Study
- Describe Basic Traffic Engineering Techniques
- Describe Cloud Connectivity Options
- Design Case Study Activity: Designing Resilient Enterprise WAN
Examining Cisco SD-WAN Architectures
- Describe SDN for the WAN
- Describe Cisco SD-WAN Components and Functions
- Describe the Orchestration Plane
- Describe the Management Plane
- Describe the Control Plane
- Describe the Data Plane
- Describe SD-WAN Analytics
- Describe the Overlay Management Protocol
- Define OMP Network Terminology
- Describe Transport Locators
- Describe Fabric Operation
Examining Cisco SD-WAN Deployment Design Considerations
- Describe Controller Deployment Options
- Describe Controller Deployment Models
- Describe Cisco SD-WAN Cloud Deployment
- Describe Cisco SD-WAN Managed Service Provider Deployment
- Describe Cisco SD-WAN On-Premises Deployment
- Use Enterprise CA
- Describe Controller Placement and Challenges
- Describe Cloud Controller Connections
- Describe On-Premise Controller Connections
- Describe MPLS and Internet Interconnection
- Describe Deployment Considerations
- Describe On-Premises Deployment Considerations
- Describe vBond On-Premises Deployment
Examining Cisco SD-WAN-NAT and Hybrid Design Considerations
- Describe Working with NAT
- Describe NAT Traversal Combinations
- Describe Zero-Touch Provisioning
- Describe Considerations for Hybrid Scenarios
- Describe Deployment Options: Pure Vs Hybrid
Designing Cisco SD-WAN Routing and High Availability
- Describe Horizontal Solution Scale
- Describe SD-WAN Redundancy
- Describe Site Design
- Describe Path Redundancy
- Compare an Underlay Vs Overlay Network
- Describe SD-WAN Branch Connectivity
- Describe SD-WAN Privacy and Integrity
- Describe SD-WAN Secure Segmentation
- Describe SD-WNA Security Features
- Cisco SD-WAN Security Use Cases
- Design Case Study Activity: Designing Resilient Enterprise Cisco SD-WAN
Exploring QoS
- IntServ vs DiffServ
- Explain Classification and Marking Tools
- Policers and Shapers
- Describe Queuing Tools
- Explain RFC 4594 QoS Recommendations
Designing LAN and WAN QoS
- Need for Campus QoS
- Describe the Classification, Marking and Policing QoS Model
- Need for QoS in WAN and Branch
- Need for QoS in IPsec VPN
- Describe DMVPN QoS Considerations
- Describe SD-WAN Forwarding
- Describe SD-WAN QoS Operation
- Descrive vEdge Queuing
- Design Case Study Activity: Designing QoS in an Enterprise Network
Introducing Multicast
- Explain How IP Multicast Works
- Explain Multicast Groups
- Describe SD-WNA Multicast Application Support
- Describe the Functions of a Multicast Network
- Describe Multicast Protocols
- Describe Multicast Forwarding and RPF Check
- Explain Multicast Protocol Basics
Exploring Multicast with PIM-SM
- Describe Multicast Distribution Trees Identification
- Describe Reciver Joins and Registering the Source
- Describe PIM-SM SPT Switchover
- Describe Multicast Routing Table
- Describe Basic SSM Concepts
- Describe Bidirectional PIM
- Describe DF Election and Messages
- Case Study: DF Election
Designing Rendezvous Point Distribution Solutions
- Rendezvous Point Discovery
- Case Study: Auto-RP Operation
- Auto-RP and BSR Flooding
- MSDP Protocol Overview
Designing an IPv4 Address Plan
- IPv4 Adress Planning Considerations
- Plan the IP Addressing Hierarchy
- Create an Addressing Plan
- Case Study: Design an IPv4 Address Space
- Case Study: Resolve Overlapping Address Ranges
- Allocating More IP Addresses
Exploring IPv6 (Self-Study)
- IPv6 Address Planning Considerations
- IPv6 for an Enterprise
- Describe IPv6 Address Allocation: Linked IPv4 Into IPv6
- Describe IPv6 Address Allocation: Per Location/Type
- Describe IPv6 Address Allocation: Per VLAN
Deploying IPv6 (Self-Study)
- Describe the IPv6 Phased Approach
- Identify IPv6 Services to Deploy
- IPv4 and IPv6 Coexistence
- Transition Mechanisms
- Describe NAT64 and DNS64
- Describe Manual Tunnels
- Describe Tunnel Brokers
- Describe 6rd
- Describe DS-Lite
- Describe LISP
- IPv6 Application Support
- IPv6 Related Security
- Design Case Study Activity: Designing an Enterprise IPv6 Network
Introducing Network APIs and Protocols (Self-Study)
- Describing Network APIs and Protocols
- Describing the Evolution of Device Management and Programmability
- Describing Data Encoding Formats
- Describing JSON
- Decrisbing XML
- Describing Data Models
- Describing the Model-Driven Programmability Stack
- Describing REST
- Describing NETCONF
- Describing RESTCONF
- Describing gRPC
Exploring YANG, NETCONF, RESTCONF, and Model-Driven Telemetry (Self-Study)
- Define YANG, NETCONF and RESTCONF
- Describe YANG Concepts
- Describe NETCONF Concepts
- Describe RESTCONF Concepts
- Compare NETCONF and RESTCONF
- Describe gRPC and gNMi
- Define Model-Driven Telemetry
- Describe Stream Telemetry Data
- Explain Subscription
- Describe Dial-In and Dial-Out Model-Driven Telemetry