Products & Services
General Technology
Implementing IPv6 (IPV6)
Implementing Cisco MPLS v2.1 (MPLS)
Implementing Cisco Multicast v1.0 (MCAST)
Implementing IPv6
Course Overview
Version 2.5 of the Implementing IPv6 Networks course is a 3-day instructor-led training course that provides technical training to help network engineers with the implementation, configuration, and maintenance of IPv6 networks using Cisco devices running Cisco IOS Software release 12.2T or later. This course covers routing protocols such as RIP, integrated IS-IS, BGP4+, IPv6 deployment strategies including overlay tunnels, 6PE, and NAT-PT, and other IPv6 features supported in phase 2 of IPv6 development roadmap from Cisco.
The course provides network professionals including SEs, Partners, and Customers the knowledge and skills required to install, configure, and maintain Cisco network devices that support IPv6 features available in the Cisco IOS 12.2T release or later. The hands-on lab exercises in this course provide critical training to enable network professionals to install and configure IPv6 networks and make the integration and coexistence of IPv6 and IPv4 networks successful.
Course Objectives
After completing this course, the student should be able to:
- Install, configure, and maintain Cisco equipment supporting IPv6 features available in the Cisco IOS 12.2T and subsequent releases.
- Install and configure IPv6 networks and make the integration of IPv6 network and its coexistence with existing IPv4 networks successful.
Implementing Cisco MPLS v2.1 (MPLS)
Course Overview
The course will enable learners to gather information from the technology basics to advanced VPN configuration. The focus of the course is on VPN technology issues of MPLS from the Service Providers perspective and how to configure some of those features and functions in an existing routed environment. A basic introductory level of some of the more updated features and functions such as Traffic Engineering, Fast Reroute and Any Transport over MPLS (AToM) are introduced on a concept level only and the MPLS Traffic Engineering and other Features course should be taken for in depth learning of those topics.
Course Objectives
Upon completion of the Internetworking With Cisco MPLS (MPLS) course the student will be able to:
- Describe basic MPLS frame-mode and cell-mode architectures and identify how it supports applications that are used to address the drawbacks in traditional IP routing
- Describe the Label Distribution Protocol (LDP) process by explaining label allocation, label distribution, label retention, label convergence and Penultimate Hop Popping (PHP) in both frame and cell modes
- Given a diagram of a typical MPLS network solution, identify the Cisco IOS command syntax required to successfully configure and monitor MPLS operations on frame, switched WAN and LC-ATM interfaces
- Describe MPLS's peer-to-peer architecture and explain the routing and packet forwarding model in this architecture
- Given a diagram of a typical simple MPLS VPN solution, identify the Cisco IOS command syntax required to successfully configure, monitor, and troubleshoot VPN operations
- Given a diagram of a typical simple, hub-and-spoke, overlapping and central services MPLS VPN solution identify the Cisco IOS command syntax required to successfully configure VPN operations and describe how these model are used to implement managed services and Internet access
Course Concepts
- MPLS Label Assignment and Distribution Frame- Mode / Cell-Mode
- MPLS Implementation on Cisco IOS Platforms
- MPLS Virtual Private Networks Technologyy
- MPLS Virtual Private Networks Implementationn
- MPLS Virtual Private Networks Advanced Featuresa
Implementing Cisco Multicast v1.0 (MCAST)
Course Overview
Implementing Cisco Multicast" provides students with in-depth knowledge of the IP multicast building blocks that make this new IP service deployable and attractive from a business perspective. Bandwidth and processing power are wasted when data is replicated and sent from a source to potential receivers multiple times. With IP multicast and a sophisticated group of protocols, the information is delivered with minimal impact on bandwidth and processor load. This IP service ensures simultaneous information delivery only to the people and the machines that require the information.
IP Multicast Technology
PIM Dense Mode Protocol, Configuration, Monitoring and Troubleshooting
Sparse Mode Multicast Protocols, Configuration,Monitoring and Troubleshooting
Reliable IP Multicasting, Configuration, Monitoring and Troubleshooting
Implementation, Monitoring and Troubleshooting of IP Multicast on Data Link Layer
Simple Intradomain Deployment of IP Multicasts