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CCNP Enterprise ENSLD (300-420) : Designing EIGRP Routing

Lectures	Duration
1. SCALABLE EIGRP DESIGNS AND FAST CONVERGENCE	11m
2. Examine EIGRP Autonomous Systems and Layered Designs	7m
3. EIGRP HUB&SPOKE AND STUB DESIGNS	7m
4. Describe EIGRP Convergence Features	5m

1. SCALABLE EIGRP DESIGNS AND FAST CONVERGENCE

11m

2. Examine EIGRP Autonomous Systems and Layered Designs

7m

3. EIGRP HUB&SPOKE AND STUB DESIGNS

7m

4. Describe EIGRP Convergence Features

5m

CCNP Enterprise ENSLD (300-420): Designing OSPF Routing

Lectures	Duration
1. Designing OSPF Routing	4m
2. OSPF Neighbor Adjacencies and LSA's	5m
3. OSPF Scalability Issues	7m
4. Define Area and Domain Summarization	5m
5. OSPF Full and Partial Mesh	8m
6. OSPF Convergence	12m

1. Designing OSPF Routing

4m

2. OSPF Neighbor Adjacencies and LSA's

5m

3. OSPF Scalability Issues

7m

4. Define Area and Domain Summarization

5m

5. OSPF Full and Partial Mesh

8m

6. OSPF Convergence

12m

CCNP Enterprise ENSLD (300-420): Designing IS-IS Routing

Lectures	Duration
1. Designing IS-IS Routing	4m
2. Describe the IS-IS Routing Protocol	11m
3. Examine IS-IS Adjacencies and Authentication	7m
4. IS-IS and OSPF Similarities	16m
5. Explore IS-IS Routing Logic	12m
6. Describe IS-IS Operations	20m
7. Examine Integrated IS-IS for IPv6	8m

1. Designing IS-IS Routing

4m

2. Describe the IS-IS Routing Protocol

11m

3. Examine IS-IS Adjacencies and Authentication

7m

4. IS-IS and OSPF Similarities

16m

5. Explore IS-IS Routing Logic

12m

6. Describe IS-IS Operations

20m

7. Examine Integrated IS-IS for IPv6

8m

CCNP Enterprise ENSLD (300-420): Designing BGP Routing

Lectures	Duration
1. Designing BGP Routing	4m
2. IBGP Scalability, Route Reflectors and Split Horizon	9m
3. BGP Route Reflector Terminology	9m
4. Describe BGP Split Horizon	4m
5. Route Reflector Loop Prevention Mechanisms	6m
6. Compare BGP Load Sharing Designs	8m
7. BGP Load Sharing	15m

1. Designing BGP Routing

4m

2. IBGP Scalability, Route Reflectors and Split Horizon

9m

3. BGP Route Reflector Terminology

9m

4. Describe BGP Split Horizon

4m

5. Route Reflector Loop Prevention Mechanisms

6m

6. Compare BGP Load Sharing Designs

8m

7. BGP Load Sharing

15m

CCNP Enterprise ENSLD (300-420): BGP Address Families and Attributes

Lectures	Duration
1. BGP Address Families and Attributes	4m
2. BGP ADDRESS FAMILY MODEL	10m
3. BGP Route Selection	17m
4. Describe BGP Communities	14m
5. Designing a Dual-Stack MP-BGP Environment	8m

1. BGP Address Families and Attributes

4m

2. BGP ADDRESS FAMILY MODEL

10m

3. BGP Route Selection

17m

4. Describe BGP Communities

14m

5. Designing a Dual-Stack MP-BGP Environment

8m

CCNP Enterprise ENSLD (300-420): Designing Enterprise Campus

Lectures	Duration
1. Designing Enterprise Campus	4m
2. End to End vs Local VLAN’s	11m
3. Layer 3 Access Layer	3m
4. Common Access-Distribution Interconnection Designs	4m

1. Designing Enterprise Campus

4m

2. End to End vs Local VLAN’s

11m

3. Layer 3 Access Layer

3m

4. Common Access-Distribution Interconnection Designs

4m

CCNP Enterprise ENSLD (300-420): Designing Layer 2 Campus

Lectures	Duration
1. Designing Layer 2 Campus	4m
2. VLAN’s , Trunks, VTP and STP	6m
3. Understanding the Spanning Tree Protocol	12m
4. Understand MST, POE, and EnergyWise	17m
5. Ether Channel	11m
6. First Hop Redundancy	11m
7. Describe Network Requirements of Applications	10m

1. Designing Layer 2 Campus

4m

2. VLAN’s , Trunks, VTP and STP

6m

3. Understanding the Spanning Tree Protocol

12m

4. Understand MST, POE, and EnergyWise

17m

5. Ether Channel

11m

6. First Hop Redundancy

11m

7. Describe Network Requirements of Applications

10m

CCNP Enterprise ENSLD (300-420): Designing Layer 3 Campus

Lectures	Duration
1. Designing Layer 3 Campus	5m
2. The Benefits of Building Triangles	3m
3. Routing Convergence	4m
4. Routing Protocols and Summarization	5m
5. Default Routes, Redistribution and Filtering	8m
6. Passive Interfaces Convergence and IPv4	11m
7. Describe Network Management Best Practices	8m

1. Designing Layer 3 Campus

5m

2. The Benefits of Building Triangles

3m

3. Routing Convergence

4m

4. Routing Protocols and Summarization

5m

5. Default Routes, Redistribution and Filtering

8m

6. Passive Interfaces Convergence and IPv4

11m

7. Describe Network Management Best Practices

8m

CCNP Enterprise ENSLD (300-420): Discovering SD Access Architecture

Lectures	Duration
1. Discovering SD Access Architecture	4m
2. Overview of SD Access Part 1	16m
3. Overview of SD Access Part 2	12m
4. SD Access Node Roles	14m
5. Examine the Fabric Enabled Wireless LAN	5m
6. Describe the Role of Cisco SD-Access in Cisco DNA	9m

1. Discovering SD Access Architecture

4m

2. Overview of SD Access Part 1

16m

3. Overview of SD Access Part 2

12m

4. SD Access Node Roles

14m

5. Examine the Fabric Enabled Wireless LAN

5m

6. Describe the Role of Cisco SD-Access in Cisco DNA

9m

CCNP Enterprise ENSLD (300-420) : SD Access Fabric Design

Lectures	Duration
1. SD Access Fabric Constructs	14m
2. Design Requirements of Underlay Network	6m
3. DHCP and Security Solutions for the Fabric Domain	8m
4. Describe Sizing and Single Platform Scalability	16m

1. SD Access Fabric Constructs

14m

2. Design Requirements of Underlay Network

6m

3. DHCP and Security Solutions for the Fabric Domain

8m

4. Describe Sizing and Single Platform Scalability

16m

CCNP Enterprise ENSLD (300-420): Discovering Service Provider Managed VPN's

Lectures	Duration
1. Discovering Service Provider Managed VPN's	4m
2. WAN Connection Decision Points	4m
3. Layer 3 MPLS	4m
4. Use Routing Protocols at the PE-CE	15m

1. Discovering Service Provider Managed VPN's

4m

2. WAN Connection Decision Points

4m

3. Layer 3 MPLS

4m

4. Use Routing Protocols at the PE-CE

15m

CCNP Enterprise ENSLD (300-420): Designing Enterprise Managed VPN's

Lectures	Duration
1. Enterprise Managed VPN Overview	3m
2. Describe GRE, mGRE, and IPsec	18m
3. Describe Dynamic VTI, GET VPN, SSL	19m
4. Describe DMVPN	18m
5. EIGRP DMVPN and DMVPN Scaling	6m

1. Enterprise Managed VPN Overview

3m

2. Describe GRE, mGRE, and IPsec

18m

3. Describe Dynamic VTI, GET VPN, SSL

19m

4. Describe DMVPN

18m

5. EIGRP DMVPN and DMVPN Scaling

6m

CCNP Enterprise ENSLD (300-420): Designing WAN Resiliency

Lectures	Duration
1. WAN Design Overview	1m
2. Common MPLS Design Models	2m
3. Describe Common Layer 2 WAN Design Models	2m
4. Describe Common VPN WAN Design Models	4m
5. Describe Cellular VPN Design Models	1m
6. Remote Site Local Internet Connectivity	2m
7. Remote Site LAN Design	5m
8. Case Studies	7m
9. Describe Basic Traffic Engineering Techniques	4m

1. WAN Design Overview

1m

2. Common MPLS Design Models

2m

3. Describe Common Layer 2 WAN Design Models

2m

4. Describe Common VPN WAN Design Models

4m

5. Describe Cellular VPN Design Models

1m

6. Remote Site Local Internet Connectivity

2m

7. Remote Site LAN Design

5m

8. Case Studies

7m

9. Describe Basic Traffic Engineering Techniques

4m

300-420: Designing Cisco Enterprise Networks (ENSLD)

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