Overview Routing and Swtiching for Systems Engineers(RSSE) v1.0 teaches learners how to plan activities that provide a technical description of solutionspresented to customers and point out specific advantages of slecting Cisco Solutions as part of a System Engineer and field Engineer team effort. It will prepare the learnerdevelop a detailed network design for the customer's advanced routing and switching needs, including Border Gateway Protocol (BG), Multiprotocol Label Switching (MPLS), Quality of Service (QOS), High Availabilty (HA), and IP version 6 (IPv6).
Pre-Requisites
Cisco Certified Design Associate (CCDA) certification
Level of knowledge equivalent to the following Cisco courses:
- Foundation Express for Systems Engineers (CFXSE)
- Implementing Cisco Quality of Service (QoS)
- Building Scalable Cisco Internetworks (BSCI)
Next Course Dates
Dates available on request. Please contact us
More Information
Cisco Premier Channel Partner Systems Engineers
Cisco Customer Systems Engineers
- Describe detailed technical features of BGP, and plan BGP implementations
- Describe advantages and features of a Cisco MPLS solution, and plan MPLS implementations
- Describe and plan Cisco solutions for QoS in a voice and video integrated network
- Provide requirements and design for a high availability design at layers 1, 2 and 3
- Plan for an IPV6 address design, including migration
- Describe the current Cisco product line for both switching and routing with an emphasis on when and where to recommend the various platforms
Course Introduction
- Determining the Need for BGP
- Reviewing BGP
- Defining BGP Path Attributes
- Designing a BGP Transit AS
- Solving IBGP Scalability Issues
- Examining Practical BGP Design Examples Maps
Understanding and Designing MPLS Solutions
- Reviewing BGP
- Defining MPLS Concepts
- Describing MPLS Label Distribution in Frame-Mode MPLS
- Describing MPLS Label Distribution in Frame-Mode MPLS
Planning a Campus QoS Implementation
- Reviewing BGP
- QoS Toolset - Classification and Marking
- QoS Toolset - LAN Classification and Marking
- QoS Toolset - Congestion Management
Designing a High Availability Campus Network
- Determining the Need for a High Availability Network
- Planning for Layer 3 High Availability
- Planning for Layer 2 High Availability
- Planning for Hardware and Software Redundancy on Modular Switches
- Planning for Redundancy with Stacked Switches
- Defining HA Best Practices in the Campus Network
Describing and Designing IPv6 Networks
- Introducing IPv6 Features and Benefits
- Defining the IPv6 Addressing Architecture
- Defining Advanced IPv6 Features
- Examining Routing Protocol Enhancements in IPv6
- Examining IPv6 Integration and Migration options
- Designing an IPv6 Deployment
Designing Cisco Networks and Choosing Cisco Products
- Designing a Cisco Network
- Choosing Cisco Routing and Switching Solutions