IPv6 Fundamentals

IPv6 FundamentalsIPV6FUNFLFast LaneFL-IPV6FUN5.2<p>This four-day entry-level IPv6 course comprises theoretical and practical technical training and helps the participants to design, implement, configure and maintain IPv6 networks.</p> <p>We use a dual-stack lab environment, based on IPv4/IPv6 native addresses for an optimal hands-on learning experience. Dual stack offers the students a real internet access via IPv4 or IPv6. The configuration is executed on Cisco devices, Windows and Linux hosts.</p><ul> <li>Network fundamentals background.</li><li>Knowledge of Host Operating Systems.</li><li>Hands-on experience in building, managing and/or troubleshooting IPv4 networks on Cisco devices.</li></ul><p>Administrators, managers, engineers, network architects and network designers.</p><ul> <li>Course Introduction</li><li>IP History and Overview</li><li>IPv6 Header and Extension Header Format</li><li>IPv6 Address Architecture</li><li>IPv6 Supported Platforms</li><li>IPv6 ICMPv6</li><li>IPv6 Applications</li><li>IPv6 Neighbor Discovery Protocol</li><li>IPv6 Migrations Methods</li><li>IPv6 Transition and Address Design</li><li>IPv6 Network Protection</li><li>IPv6 Traffic Filtering</li><li>IPv6 FHRP Protocols</li><li>IPv6 Routing Protocols</li></ul><h5>Course Introduction </h5><h5>IP History and Overview </h5><ul> <li>IP Address Assignment</li><li>IPv4 History and Status</li><li>IPv6 History and Status</li><li>IPv6 Features and Benefits</li></ul><h5>IPv6 Header and Extension Header Format</h5><ul> <li>IPv6 Header Changes</li><li>IPv6 Extension Headers</li></ul><h5>IPv6 Address Architecture</h5><ul> <li>IPv6 Address Allocation and Assignment</li><li>IPv6 Address Types</li><li>IPv6 Address Text Representation</li><li>IPv6 Address Structure</li></ul><h5>IPv6 Supported Platforms</h5><ul> <li>IPv6 on Windows OS</li><li>IPv6 on MAC OS</li><li>IPv6 on Linux OS</li><li>IPv6 on Cisco IOS</li></ul><h5>IPv6 ICMPv6</h5><ul> <li>ICMPv6 Introduction</li><li>ICMPv6 Message Types</li><li>ICMPv6 Path MTU Discovery</li><li>ICMPv6 Multicast Listener Discovery</li><li>ICMPv6 Neighbor Discovery Protocol</li><li>ICMPv6 Recommendations</li></ul><h5>IPv6 Applications</h5><ul> <li>DHCPv6</li><li>DNS for IPv6</li></ul><h5>IPv6 Neighbor Discovery Protocol</h5><ul> <li>IPv6 Neighbor Discovery Introduction</li><li>IPv6 Neighbor Discovery (SLAAC)</li><li>IPv6 Neighbor Discovery (DHCPv6)</li></ul><h5>IPv6 Migrations Methods</h5><ul> <li>Dual Stack</li><li>Tunneling</li><li>Translation</li><li>DNS64/NAT64</li></ul><h5>IPv6 Transition and Address Design</h5><ul> <li>Strategy</li><li>Address Planning and DHCPv6 Implementation</li></ul><h5>IPv6 Network Protection</h5><ul> <li>RA Guard</li><li>DHCP Snooping</li></ul><h5>IPv6 Traffic Filtering</h5><ul> <li>ACL Rules</li><li>ACL Recommendations</li></ul><h5>IPv6 FHRP Protocols</h5><ul> <li>VRRP, GLBP, HSRP</li><li>HSRP Optimisation</li></ul><h5>IPv6 Routing Protocols</h5><ul> <li>IPv6 Static/Default Route</li><li>IPv6 enabled Routing Protocols</li><li>IPv6 named OSPFv3</li><li>IPV4/IPv6 Single Area OSPFv3</li></ul>This four-day entry-level IPv6 course comprises theoretical and practical technical training and helps the participants to design, implement, configure and maintain IPv6 networks. We use a dual-stack lab environment, based on IPv4/IPv6 native addresses for an optimal hands-on learning experience. Dual stack offers the students a real internet access via IPv4 or IPv6. The configuration is executed on Cisco devices, Windows and Linux hosts.- Network fundamentals background. - Knowledge of Host Operating Systems. - Hands-on experience in building, managing and/or troubleshooting IPv4 networks on Cisco devices.Administrators, managers, engineers, network architects and network designers.- Course Introduction - IP History and Overview - IPv6 Header and Extension Header Format - IPv6 Address Architecture - IPv6 Supported Platforms - IPv6 ICMPv6 - IPv6 Applications - IPv6 Neighbor Discovery Protocol - IPv6 Migrations Methods - IPv6 Transition and Address Design - IPv6 Network Protection - IPv6 Traffic Filtering - IPv6 FHRP Protocols - IPv6 Routing ProtocolsCourse Introduction IP History and Overview - IP Address Assignment - IPv4 History and Status - IPv6 History and Status - IPv6 Features and Benefits IPv6 Header and Extension Header Format - IPv6 Header Changes - IPv6 Extension Headers IPv6 Address Architecture - IPv6 Address Allocation and Assignment - IPv6 Address Types - IPv6 Address Text Representation - IPv6 Address Structure IPv6 Supported Platforms - IPv6 on Windows OS - IPv6 on MAC OS - IPv6 on Linux OS - IPv6 on Cisco IOS IPv6 ICMPv6 - ICMPv6 Introduction - ICMPv6 Message Types - ICMPv6 Path MTU Discovery - ICMPv6 Multicast Listener Discovery - ICMPv6 Neighbor Discovery Protocol - ICMPv6 Recommendations IPv6 Applications - DHCPv6 - DNS for IPv6 IPv6 Neighbor Discovery Protocol - IPv6 Neighbor Discovery Introduction - IPv6 Neighbor Discovery (SLAAC) - IPv6 Neighbor Discovery (DHCPv6) IPv6 Migrations Methods - Dual Stack - Tunneling - Translation - DNS64/NAT64 IPv6 Transition and Address Design - Strategy - Address Planning and DHCPv6 Implementation IPv6 Network Protection - RA Guard - DHCP Snooping IPv6 Traffic Filtering - ACL Rules - ACL Recommendations IPv6 FHRP Protocols - VRRP, GLBP, HSRP - HSRP Optimisation IPv6 Routing Protocols - IPv6 Static/Default Route - IPv6 enabled Routing Protocols - IPv6 named OSPFv3 - IPV4/IPv6 Single Area OSPFv34 days3190.002990.002995.002995.002990.003290.003290.003290.002935.0011410.002990.002990.002990.00