Safe Migration from IPv4 to IPv6
This class shows you both base and advanced technical knowledge about the internet protocol of the next generation IPv6. The delegates should be prepared for the change to IPv6 based networks soon and because of this they should understand the function and addressing of IPv6.
The content of this class covers the possibilities of addressing, autoconfiguration with DHCP, use of DNS, configuration rules for your enterprise network, the configuration of Cisco Routers, Win7 clients and Win2008R2 Servers for IPv6, IPv6 transition mechanism and the deployment of IPv6 for enterprise networks. The address allocation, a working IPv6 address design, solutions for the Dual Homing problem and the necessary precautions for the migration from IPv4 to IPv6 for your enterprise network are filling the course content. This class supports network system engineers with the configuration and support of Cisco IOS Routers and the Microsoft operating systems Windows 7 and Server 2008R2.
The themes autoconfiguration with SLAAC and DHCP and on top DNS are learned theoretical and with pratical labs, IPv6 routing protocols like OSPF and EIGRP, first hop redundancy protocols like HSRP and GLBP, IPv6 transition mechanisms including Tunnels like ISATAP, TEREDO and 6to4 as well as NAT64 are covered within this class. The most important design aspects of this class covering in detail the IPv6 design for enterprise networks, using of DHCP and DNS, integration von IPv6 in a IPv4 network, addressing examples and much more.
Objetivos
Ciberseguridad
Disponible en formato e-learning
Disponible en formato presencial
Disponible en formato a distancia
Descargar la información del curso
Subvención disponible
A través de Fundae, cumpliendo requisitos.
Duración
15 horas
- Dificultad 50%
- Nivel alcanzado 80%
Dirigido a
Network administrators for Cisco and Microsoft, who have to understand IPv6 and have to deal with the change from IPv4 to IPv6.
Conocimientos requeridos
nan
Temario
Module 1. Introduction to IPv6
Explaining the rationale for IPv6
Module 2. IPv6 Operations
Understanding IPv6 Addressing Architecture
Enabling IPv6 on Hosts (Win7,Win2008)
Enabling IPv6 on Cisco Routers
Describing the IPv6 Header Format
Using IGMPv6 and Neighbor Discovery
Renumbering
Understanding Stateless Address
Autoconfiguration SLAAC
Router Advertisements
Problems of SLAAC
Understanding DHCPv6 Operations
Stateless vs Stateful DHCPv6
Cisco Router as stateless DHCP Server
Cisco Router as statelful DHCP Server
Win 2008R2 Server as DHCP Server
DHCP Relay Agent
Cisco Router as DHCP Relay Agent
DHCP Multicast Addresses
Using DNS in IPv6
DNS Structure
Dynamic DNS
Dual Stack Operation with DNS
Troubleshooting IPv6
Module 3. IPv6-Enabled Routing Protocols
Examining OSPFv3
Examining EIGRP for IPv6
Configuring FHRP for IPv6
Understanding HSRP
Understanding GLBP
Module 4. IPv6 Transition Mechanism
Implementing Dual Stack
Describing IPv6 Tunneling Mechanisms
Manually configured Tunnels
IPv6 in IPv4, GRE, VPN
Automatic Tunnel Mechanisms
6to4, ISATAP, TEREDO
Describing NAT64
DNS64 in action
NAT64 in action
NAT64 implementations
Advantages and Disadvantages of Dual
Stack
Encapsulation
NAT64
Module 5. IPv6 Security
Understanding IPv6 Security Practices
Module 6. Deploying IPv6
Examining IPv6 Address Allocation
A working IPv6 Address Design
Understanding the IPv6 Multihoming
Identifying IPv6 Enterprise Deployment Stategies
Labs
Lab 2-1: IPv6 on Win7 Hosts, Server 2008R2 and on Cisco Router
Lab 2-2: Using SLAAC, Stateless Address Autoconfiguration
Lab 2-3: Using a Cisco Router as DHCP Server (stateless and stateful)
Lab 2-4: Using a Windows 2008R2 Server as stateful DHCP Server
Lab 2-5: Using DNS in a Dual Stack Environment
Lab 3-1: Routing with OSPFv3
Lab 3-2: Routing with EIGRP
Lab 3-3: First Hop Redundancy with HSRP
Lab 3-4: First Hop Redundancy with GLBP
Lab 4-1: Implementing Tunnels for IPv6
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