Designing Cisco Enterprise Networks (Ensld 300-420)

Most Complete Teaching of ENSLD 300-420

What you'll learn

Internet Protocol Version 4 (IPv4) Design

Internet Protocol Version 6 (IPv6) Design

Routing Protocol Characteristics, EIGRP, and IS-IS

OSPF, BGP, and Route Manipulation

IP Multicast and Network Management

Enterprise LAN Design and Technologies

Advanced Enterprise Campus Design

WAN for the Enterprise

WAN Availability and QoS

SD-Access Design

SD-WAN Design

Automation

Requirements

You need to have CCNA Level knowledge . You can implement scenarios of this course in GNS3 or EVE-NG.

Description

After taking this course, you should be able to:Design Enhanced Interior Gateway Routing Protocol (EIGRP) internal routing for the enterprise networkDesign Open Shortest Path First (OSPF) internal routing for the enterprise networkDesign Intermediate System to Intermediate System (IS-IS) internal routing for the enterprise networkDesign a network based on customer requirementsDesign Border Gateway Protocol (BGP) routing for the enterprise networkDescribe the different types and uses of Multiprotocol BGP (MP-BGP) address familiesDescribe BGP load sharingDesign a BGP network based on customer requirementsDecide where the L2/L3 boundary will be in your Campus network and make design decisionsDescribe Layer 2 design considerations for Enterprise Campus networksDesign a LAN network based on customer requirementsDescribe Layer 3 design considerations in an Enterprise Campus networkExamine Cisco SD-Access fundamental conceptsDescribe Cisco SD-Access Fabric DesignDesign a Software-Defined Access (SD-Access) Campus Fabric based on customer requirementsDesign service provider-managed VPNsDesign enterprise-managed VPNsDesign a resilient WANDesign a resilient WAN network based on customer requirementsExamine the Cisco SD-WAN architectureDescribe Cisco SD-WAN deployment optionsDesign Cisco SD-WAN redundancyExplain the basic principles of QoSDesign Quality of Service (QoS) for the WANDesign QoS for enterprise network based on customer requirementsExplain the basic principles of multicastDesigning rendezvous point distribution solutionsDescribe high-level considerations when doing IP addressing designCreate an IPv6 addressing planPlan an IPv6 deployment in an existing enterprise IPv4 networkDescribe the challenges that you might encounter when transitioning to IPv6Design an IPv6 addressing plan based on customer requirementsDescribe Network APIs and protocolsDescribe Yet Another Next Generation (YANG), Network Configuration Protocol (NETCONF), and Representational State Transfer Configuration Protocol (RESTCONF)

Overview

Section 1: IPv4 Design

Lecture 1 IPv4 Header

Lecture 2 Type of Service (ToS)

Lecture 3 IPv4 Addressing

Lecture 4 IPv4 Private Addressing and NAT [A]

Lecture 5 IPv4 Private Addressing and NAT

Lecture 6 IPv4 Address Subnets

Lecture 7 IPv4 Addressing Operational View

Lecture 8 Determining the Network Portion

Lecture 9 IPv4 Addressing Design Guidelines

Lecture 10 Case Study and DHCP and BootP

Lecture 11 ARP and DNS

Section 2: IPv6 Design

Lecture 12 IPv6 Fundamentals and Multicast Addresses

Lecture 13 Anycast IPv6 and ULA , LLA IPv6 Address

Lecture 14 Global Unicast IPv6 Address Fundamental

Lecture 15 Stateless DHCP and Stateful DHCP and NDP

Lecture 16 IPv6 Mechanism

Lecture 17 IPv6 Routing Protocols and IPv6 Address Design

Lecture 18 IPv4toIPv6 Migration with Dual Stack and Point-to-Point

Lecture 19 IPv4toIPv6 Migration Point-to-MultiPoint Tunnels

Lecture 20 IPv4toIPv6 Migration - Translation with NAT64

Lecture 21 IPv6 Deployment Models

Lecture 22 IPv6 Enhancement over IPv4 and Characteristics

Section 3: Routing Fundamentals

Lecture 23 Static Routing and Administrative Distance

Lecture 24 Routing Protocol Characteristics

Section 4: EIGRP

Lecture 25 EIGRP Fundamentals and Basic Configuration

Lecture 26 EIGRP Neighborship Process

Lecture 27 EIGRP Path Metric Calculation

Lecture 28 EIGRP Convergence

Lecture 29 EIGRP Load-Balancing

Lecture 30 EIGRP Stub Router

Lecture 31 EIGRPv4 and EIGRPv6 Summary and Design Considerations

Section 5: IS-IS

Lecture 32 The History of IS-IS

Lecture 33 CLNP [ Connection Less Network Protocol ]

Lecture 34 IS-IS Fundamentals

Lecture 35 IS-IS Process and Terminology

Lecture 36 IS-IS Basic Configuration , Verification

Lecture 37 IS-IS Hello Authentication

Lecture 38 IS-IS LSP , CSNP , PSNP Authentication

Lecture 39 IS-IS Metric

Lecture 40 IS-IS Network Types

Lecture 41 IS-IS for IPv6 Routing

Lecture 42 IS-IS Area Design and IS-IS Summary

Section 6: OSPF

Lecture 43 OSPF Fundamentals

Lecture 44 OSPF Dynamic Neighborship

Lecture 45 OSPF Packets and States and Static Neighborship

Lecture 46 OSPF DR and BDR

Lecture 47 OSPF LSA TYPE-1 ( Router LSA )

Lecture 48 OSPF LSA TYPE-2 ( Network LSA )

Lecture 49 OSPF LSA TYPE-3 ( Summary LSA )

Lecture 50 OSPF LSA TYPE-5 ( External LSA )

Lecture 51 OSPF LSA TYPE-4 ( ASBR-Summary LSA )

Lecture 52 OSPF Area Types and LSA Type-7 (NSSA-External LSA)

Lecture 53 OSPF Virtual Links

Lecture 54 OSPF Cost and Path Selection Rules

Lecture 55 OSPFv3 Fundamentals and Basic Configuration

Lecture 56 OSPFv3 LSA Types

Section 7: Border Gateway Protocol (BGP)

Lecture 57 BGP Fundamentals and Basic Configuration

Lecture 58 eBGP Multihop

Lecture 59 BGP Injecting Routes into BGP Table

Lecture 60 BGP Summarization

Lecture 61 Internal BGP [iBGP] Fundamentals and Configuration

Lecture 62 iBGP Route Reflector

Lecture 63 iBGP Confederations

Lecture 64 BGP Community

Lecture 65 BGP Path Attributes Types

Lecture 66 BGP Origin Code

Lecture 67 BGP Best Path Selection - Weight

Lecture 68 BGP Best Path Selection - Local Preference

Lecture 69 BGP Best Path Selection - Preference of Locally Injected Path

Lecture 70 BGP Best Path Selection - AIGP

Lecture 71 BGP Best Path Selection - AS-Path

Lecture 72 BGP Best Path Selection - Origin Code

Lecture 73 BGP Best Path Selection - MED

Lecture 74 BGP Best Path Selection - Prefer eBGP to iBGP Path

Lecture 75 BGP Best Path Selection - Lowest IGP Metric to Next-Hop

Lecture 76 BGP Best Path Selection - Prefer Oldest eBGP Path

Lecture 77 BGP Best Path Selection - Lower BGP Router ID

Lecture 78 BGP Best Path Selection - Minimum Cluster List Length

Lecture 79 BGP Best Path Selection - Lowest Neighbor IP Address

Lecture 80 BGP Equal Cost Multipath [ECMP]

Lecture 81 BGP Remove Private AS Number

Lecture 82 BGP Path Selection Using the Longest Match

Section 8: Redistribution

Lecture 83 Redistribution Fundamentals

Lecture 84 Redistribution into EIGRP

Lecture 85 Redistribution into OSPF

Lecture 86 Routing Loops in Redistribution

Section 9: Policy Based Routing [PBR]

Lecture 87 Policy Based Routing [PBR]

Section 10: Bidirectional Forwarding Detection (BFD)

Lecture 88 Bidirectional Forwarding Detection (BFD)

Section 11: Graceful Restart and Non-Stop Routing

Lecture 89 Graceful Restart and Non-Stop Routing

Section 12: Virtual Routing and Forwarding [VRF]

Lecture 90 Virtual Routing and Forwarding [VRF]

Section 13: IP Multicast

Lecture 91 Multicast Fundamentals and Addresses

Lecture 92 IGMP , IGMP Snooping

Lecture 93 PIM Dense Mode

Lecture 94 PIM Sparse Mode

Lecture 95 PIM Designated Router (DR) and PIM Forwarder

Lecture 96 Bidirectional PIM

Lecture 97 Source Specific Multicast [SSM]

Lecture 98 Multicast Source Discovery Protocol [MSDP]

Section 14: Network Management

Lecture 99 SNMP

Lecture 100 Remote Monitoring [ RMON ]

Lecture 101 Netflow and Flexible Net Flow

Lecture 102 CDP and LLDP

Lecture 103 Syslog

Section 15: Enterprise LAN

Lecture 104 Enterprise LAN Design

Lecture 105 Ethernet LAN Media

Lecture 106 Power Over Ethernet ( POE )

Lecture 107 Wake On LAN ( WOL )

Section 16: Spanning-Tree Protocol (STP)

Lecture 108 Spanning-Tree Protocol Fundamentals

Lecture 109 STP Tie Breakers and PVST+

Lecture 110 STP Root Bridge Election and STP BPDU

Lecture 111 STP Convergence

Lecture 112 STP Portfast and BPDUGuard

Lecture 113 Spanning Tree Protocol Protection

Lecture 114 STP Uplinkfast

Lecture 115 STP Backbone Fast

Lecture 116 Rapid Spanning Tree Protocol [RSTP]

Lecture 117 Multiple Spanning Tree Protocol [MST]

Section 17: EtherChannel

Lecture 118 EtherChannel

Section 18: Campus LAN Design and Best Practices

Lecture 119 Campus LAN Design and Best Practices

Section 19: LAN High Availability

Lecture 120 First-Hop Redundancy for LAN High Availability

Lecture 121 High Availability Network Services

Section 20: Wide Area Network (WAN)

Lecture 122 WAN for the Enterprise

Lecture 123 WAN Availability and QoS

Section 21: Software-Defined Access (SD-Access)

Lecture 124 Software-Defined Access (SD-Access) Overview

Lecture 125 Software-Defined Access (SD-Access) Details

Lecture 126 Software-Defined Access (SD-Access) Design

Section 22: Software-Defined Wide Area Network (SD-WAN)

Lecture 127 SD-WAN Architecture

Lecture 128 SDWAN Design Considerations

Section 23: Automation

Lecture 129 Understanding REST and JSON

Lecture 130 Design Enterprise Network Automation

Enterprise Network Engineers , Service Provider Engineers , Enterprise Design Engineers