MPLS Training | Multiprotocol Label Switching Training

MPLS Training | Multiprotocol Label Switching Training


MPLS Training | Multiprotocol Label Switching Training Course and Continuing Education (CE) Credits

MPLS Training | Multi Protocol Label Switching Training (MPLS) is one of the central elements of next generation networks. It provides an IP-compatible, QoS-capable infrastructure that enables the convergence of voice, IP, ATM, Ethernet, and Frame Relay onto the same backbone network. MPLS can combine the intelligence and scalability of routing with the reliability and manageability of traditional carrier networks. It is the key to scalable virtual private networks (VPNs) and end-to-end quality of service (QoS).

This course provides an in-depth study of the MPLS technology, including the theory and configuration, network design issues, operations, VPN, traffic engineering, and GMPLS. We will start with an overview of conventional routing and how it compares to MPLS routing. We will then learn about the underlying concepts, features, functions, benefits, and applications of MPLS. We will also study the frame-mode and cell-mode MPLS, the concept of MPLS labels, label stack and different label formats, the label distribution process between LSRs, the loop detection and prevention mechanisms in MPLS, MPLS architecture, MPLS VPN, MPLS QoS, and MPLS traffic engineering. We will conclude with an exploration of the future trends related to the MPLS technology.

Customize It:

With onsite Training, courses can be scheduled on a date that is convenient for you, and because they can be scheduled at your location, you don’t incur travel costs and students won’t be away from home. Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff’s and site’s requirements.

MPLS Training | Multiprotocol Label Switching TrainingRelated Courses:

Duration: 2-3 days


◾Describe the features, functions, and benefits of MPLS
◾Identify suitable applications for MPLS
◾Explain the underlying concepts of MPLS
◾Elaborate on the frame-mode MPLS and cell-mode MPLS
◾Describe the concept of MPLS labels, label stack and different label formats
◾Describe the label distribution process between LSRs
◾Describe the loop detection and prevention mechanisms in MPLS
◾Describe the QoS mechanisms in MPLS
◾Describe the VPN in MPLS

Course Content:

Overview of Routing and MPLS
◾Layer 3 Routing
◾Native Hop-by-Hop Network Layer Routing
◾Next Hop Selection Functions
◾Label Switching
◾MPLS Forwarding Paradigm
◾Integration of IP and ATM
◾Advantages of MPLS Forwarding over Conventional Network Layer Forwarding
◾Why MPLS?

Label Switch Routers (LSRs)
◾LSR Basics
◾LSR Routing Operation

MPLS Labels
◾MPLS Labels Basics
◾Label Encapsulation
◾Label Assignment and Distribution
◾Upstream and Downstream LSR
◾Label Distribution: Purpose
◾Label Distribution: Protocols
◾Label Distribution: Methods
◾Label Retention Modes
◾Label Switched Path (LSP)
◾LSP Setup Control

MPLS Architecture
◾MPLS Operation
◾MPLS Node Architecture
◾MPLS Elements
◾Loop Survival, Detection, and Prevention in MPLS

Virtual Private Networks
◾Overview of VPNs
◾Connection-Oriented VPNs
◾Connectionless VPNs
◾Comparison of VPN Technologies
◾Advantages of MPLS VPNs

Packet-Based MPLS VPNs
◾Basics of MPLS and BGP
◾MPLS VPN Operation
◾Verifying VPN Operation
◾BGP Route Reflectors
◾Carrier-over-Carrier MPLS VPNs
◾Internet Access over MPLS VPNs
◾Trace Route Enhancements
◾MPLS VPN Management

◾ATM LSR: Merge Capabilities
◾Issues with ATM
◾Downstream-on-Demand and ATM
◾ATM-LSR and VC-merge
◾MPLS and Tag Switching Terminology
◾Packet-Based MPLS over ATM
◾Cell Interleaving
◾VC Merge
◾Label Virtual Circuits
◾Label Switch Controllers
◾Virtual Switch Interface
◾Packet-Based MPLS over ATM VPNs

MPLS Traffic Engineering
◾The Need for Traffic Engineering on the Internet
◾Unequal-Cost Load Balancing via Metric Manipulation
◾Advantages of MPLS Traffic Engineering
◾MPLS Traffic Engineering Elements (Dynamic/Static LSPs)
◾MPLS Traffic Engineering Configuration
◾Configuration Case Study of an MPLS Traffic-Engineered Network (IS-IS)
◾Configuration Case Study of an MPLS Traffic-Engineered Network (OSPF)

MPLS Quality of Service
◾Introduction to Quality of Service
◾Integrated Services
◾IP Precedence
◾Differentiated Services
◾Modular QoS CLI
◾MPLS Implementation of DiffServ
◾MPLS VPN Support of QoS
◾MPLS QoS Implementation
◾Configuring QoS for MPLS VPNs
◾MPLS QoS Case Study

MPLS Design and Migration
◾MPLS VPN Design and Topologies
◾Migrating MPLS into an ATM Network
◾ATM MPLS Design Criteria
◾Designing MPLS Networks
◾Additional MPLS Design Considerations

Route Selection
◾Standard IP and MPLS
◾IP Forwarding
◾MPLS Label Distribution
◾Label Switched Path (LSP)
◾Explicitly Routed LSP (ER-LSP): Basics, Example, Advantages
◾Hop-by-Hop versus Explicit Routing

DiffServ Support in MPLS
◾Types of LSPs for DiffServ Support
◾EXP-Inferred-PSC LSP (E-LSP)
◾Label-Only-Inferred-PSC LSP (L-LSP)
◾Bandwidth Reservation for E-LSP and L-LSP

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    Time Frame: 0-3 Months4-12 Months

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