WEEK 1 Design an IPv4 and IPv6 Addressing Scheme 151 min.
Introducing IPv4 Address Schemes 1
Cisco CCNP Designing An IPv4 Refresher
Designing a Basic Subnet
11
9
Enterprise Networks Designing for an Enterprise
Considerations of VLSM
8
5
(300-420 ENSLD) Summarizing IPv4 Addressing 1
Introducing IPv6 Addressing Schemes 1
IPv6 Address Structure 8
This Designing Cisco Enterprise Networks (300-420 ENSLD) training
IPv6 Address Allocations 10
prepares a network administrator to earn their CCNP Enterprise,
Stateless and Stateful Configuration 10
covering how to implement core enterprise network technologies,
Configure IPv6 Addresses 9
including dual stack architecture, network virtualization, security,
Summarizing IPv6 Addressing 1
infrastructure, and automation. For anyone with network
administrators on their team, this Cisco training can be used for IS-IS Foundations and Design
300-420 ENSLD exam prep to earn your CCNP Enterprise certification. Overview 1
Introducing IS-IS 1
CBT Nuggets course material
The Levels of an ISO Network 6
Areas within an IS-IS Domain 4
The Router's Level and Behavior 10
Configuring the NET 8
Configuring Level 1 IS-IS Neighbors 7
Configuring Level 2 IS-IS Neighbors 5
Configure Borders with Level 1/2 ISs 7
Summarizing IS-IS Foundations 1
Introducing IS-IS Campus Designs 1
Securing IS-IS with Authentication 7
The Flat IS-IS Network Design 5
IS-IS in a 3-Tier Enterprise Campus 7 Beginning with BGP 1
The Hybrid IS-IS Design 4 The Point of BGP 9
Summarizing IS-IS Designs 1 Setting Up BGP 21
WEEK 2 Design Networks with EIGRP 160 min. WEEK 3 153 min.
eBGP vs iBGP 9
Overview 1
Next-Hop Self 7
Designing EIGRP Networks 1
The BGP Process 6
EIGRP Neighborships 17
Update-Source Interface 11
EIGRP Metrics 12
Address Families 8
The Feasibility Condition 7
Summarizing BGP Basics 1
Autonomous Systems 6
Stub Routers 7 Solve BGP Scalability Issues
Summarization Points 5
Overview 1
EIGRP Authentication 6
Introducing BGP's Scale Issues 1
Summarizing EIGRP Design 1
The Multi-Hop Scenario 18
Designing Networks with OSPF Route Reflectors: Rule 1 3
Examine Route Reflector Rule 1 11
Overview 1
Route Reflectors: Rule 2 2
Introducing OSPF 1
Examine Route Reflector Rule 2 10
Neighbor Adjacency Formation 21
Route Reflectors: Rule 3 2
Designated and Backup Designated Routers 11
Examine Route Reflectors Rule 3 9
The LSAs 9
Exploring Confederations 5
OSPF Areas 12
Deploy and Trace a Confederation 20
Authentication 7
Summarizing BGP Scaling Solutions 1
Summarizing OSPF 1
Understand the BGP Best Path Algorithm
Break Through BGP Basics with Address Families
Overview 1
Overview 1
Introducing BGP's Decision Making Process 1 Tunneling IPv6 over IPv4 14
Weight 14 IPv6 Tunneling Concerns 8
Local Preference 12 Using LISP to Tunnel Traffic 9
Translating IPv6 into IPv4 5
Summarizing IPv6 Transition Technologies 3
WEEK 4 161 min.
Design High Availability in Campus Networks
Originator and AIGP 10
AS Path 3 Overview 1
Origin Code and MED 12 Intro 1
eBGP vs iBGP 9 Network Redundancy 12
The Remaining Tiebreakers 5
Summarizing the BGP Best Path Algorithm 1
WEEK 5 154 min.
Design Networks with BGP Hot Standby Router Protocol (HSRP) 14
Overview 1 Virtual Router Redundancy Protocol (VRRP) 7
Introducing BGP Design 1 Gateway Load Balancing Protocol (GLBP) 8
Load Balancing Outbound Connections - Single ISP 6 Bidirectional Forwarding Detection (BFD) 8
Load Sharing Outbound Connections - Mulithomed 4 FHRP Design 12
ISPs
Graceful Restart, SSO, and NSF 7
Manipulate Inbound Connections - Single ISP 5
Review and Quiz 5
Manipulate Inbound Connections - Multihomed ISPs 4
BGP Communities 8 Explain the Hierarchical Network Model
Route Reflector Design 19 Overview 1
Validating Your Design with Looking Glass 9 Intro 1
Summarizing BGP Design 1 The Hierarchical Network Model 8
Enterprise Campus Architecture 9
Determine IPv6 Migration Strategies
The Access Layer 6
Overview 1
The Distribution Layer 7
Introducing IPv6 Transition Strategies 1
The Core Layer 5
Dual Stack Environments 6
Collapsed Designs 6 Intro 1
Review and Quiz 4 SD-Access Overview 12
SD-Access Architecture 8
Design Campus L2 Infrastructures
SD-Access Device Roles 8
Overview 1 The SDA Control Plane - LISP 8
Intro 1 The SDA Data Plane - VXLAN 6
Media Types 10 The SDA Policy Plane - CTS 7
L2 and L3 Access Layer Design 7 SD-Access Wireless 6
STP Modes and Features 8 SD-Access Automation 6
STP Designs 10 Review and Quiz 4
Reducing STP Footprint 7
Design an SD-Access Fabric
Overview 1
WEEK 6 152 min. Intro 1
Power over Ethernet (PoE) and Wake on LAN (WoL) 8 Overlay and Network Segmentation Design 7
Review and Quiz 6 Underlay Design 6
Design Multicampus L3 Infrastructures
Overview 1 WEEK 7 153 min.
Intro 1 Control Plane Design 4
Routing Convergence, Summarization, and Filtering 10 Border Design 7
Route Load Sharing 7 Hardware Selection 8
Route Redistribution 9 Wireless Design 7
Virtual Routing and Forwarding (VRFs) 6 Multicast in SD-Access 6
Optimal Topologies 14 Fabric in a Box 4
Review and Quiz 5 Multisite Designs 6
Review and Quiz 5
Describe SD-Access Architecture
Overview 1
Compare WAN Connectivity Options
Review and Quiz 5
Overview 1
Intro 1 Describe Cisco SD-WAN Architecture and Principles
L2 and L3 VPN Services 8
Overview 1
Metro Ethernet and SONET/SDH 9
Intro 1
Dark and Lit Fiber 8
Cisco SD-WAN Architecture 9
Cellular Connections 8
The SD-WAN Data Plane 7
SD-WAN Customer Edge 7
The SD-WAN Control Plane 3
Review and Quiz 4
The SD-WAN Management Plane 5
Design Site-to-Site VPNs The Orchestration Plane 5
VPNs, Colors, and TLOCs 9
Overview 1
Features and Benefits 8
Intro 1
Review and Quiz 4
DMVPN 10
L2 and L3 VPN Design 8 Design Cisco SD-WAN
Generic Routing Encapsulation (GRE) 7
Overview 1
IPsec 6
Intro 1
GET VPN 8
Control Plane Design 9
Review and Quiz 4
Overlay Design 9
Design Enterprise WAN High Availability LAN Design 6
Redundancy and High Availability 7
Overview 1
Securing the SD-WAN 6
Intro 1
Multicast Traffic 7
WAN Circuit Redundancy 10
QoS in SD-WAN 8
Review and Quiz 7
WEEK 8 151 min.
Routing Across Redundant WANs 7
Internet Circuit Redundancy 10 WEEK 9 Select QoS Strategies 152 min.
Measuring and Tracking SLA 14 Overview 1
Intro 1 Summarizing Network Management Design 1
The Need for QoS 11 Introducing Telemetry Designs 1
The IntServ Model 8 Streaming Telemetry and Model-Driven Telemetry 9
The DiffServ Model 10 The Subscription Cadence 6
Classification and Marking 14 Dial-In vs Dial-Out Telemetry 5
Queuing and Scheduling 8 MDT Protocols 8
Review and Quiz 4 Summarizing Model-Driven Telemetry 1
Design End-to-End QoS Policy Multicast Routing Foundations and Design
Overview 1 Overview 1
Intro 1 Introducing Multicast Fundamentals 1
Congestion Management 13 The Point of Multicast 8
Congestion Avoidance 10 IGMP and PIM 6
Shaping and Policing 10 Source Trees 6
End-to-End QoS 7 Shared Trees 4
QoS Design 11 Rendezvous Points 5
Review and Quiz 4 Reverse Path Forwarding 4
Summarizing Multicast Fundamentals 1
Network Management and Telemetry Techniques
Introducing Multicast Routing Design 1
Overview 1 Understanding IGMP 8
Designing for Network Management 1 PIM Dense-Mode (PIM-DM) 8
In-Band vs Out-of-Band 7 PIM Sparse-Mode (PIM-SM) 10
SNMP 7 Bidir-PIM 3
YANG, Netconf, and Restconf 7 Source Specific Multicast (SSM) 4
Netflow 6 MSDP 4
Syslog 6 Summarizing Multicast Design 1
Understand Model Driven Programmability
WEEK 10 155 min. Overview 1
Introduction to Model Driven Programmability 7
Transactional Configurations 12
Node Types & Leaf Attributes 7
Exploring YANG with Pyang 10
Linux Tricks for YANG 10
WEEK 11 119 min.
YANG Data Modelling with the CLI 10
Understand YANG-Based Network Automation
Overview 1
IETF YANG Models 14
OpenConfig YANG Models 10
Native YANG Models 12
Pulling the Models 8
Design Considerations 7
Understand the NETCONF and RESTCONF protocols
Overview 1
Introduction to NETCONF 10
NETCONF RPCs 13
Introduction to RESTCONF 5
RESTCONF Methods 3
Separating Config & State 9
Network-Wide Transactions 13
Last updated 12.3.2024