| Instrutor |
| Yoram Orzach have gained his B.Sc. from the Technion in Haifa, and from 1991 to 1995 worked in Bezeq as system engineer in the fields of transmission and access networks. In 1995 he joined Netplus (Leadcom group) as technical manager, and since 1999 he work as the CTO of NDI Communications, and involved in the design and implementation of data communications projects worldwide. Yoram's training experience is with high-tech companies and service providers, in the fields of data communications, network design and troubleshooting, IP Telephony and Cellular networks. |
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| Dates |
| Will be announced |
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| Duration |
| 2 Days |
| On Organization site / Public |
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| Price |
| NIS (₪) +VAT |
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| Overview |
| MPLS networks has become the backbone for modern IP networks, and located at the core of modern service providers. This course covers the basic technologies, along with QoS, TE, and various VPN applications. The course also provides description on the new redundancy and management architectures for the MPLS networks |
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| Target Audience |
| Technical support, R&D and Engineers |
| Prerequisites: Basic knowledge in networking and TCP/IP |
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| Course benefit |
Upon completing the course, the participants will be able to:
• Understand MPLS and MPLS VPNs technologies
• Describe the architecture & components of MPLS and MPLS VPNs
• Explain the use of BGP and modified BGP for MPLS VPNs
• Understand how Quality of Service and traffic engineering are delivered using MPLS VPNs |
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| Topics |
MPLS basics
Network architecture
Label forwarding and distribution
MPLS VPNs – Virtual Private Networks
TE – Traffic Engineering
QoS – Quality of Service in MPLS networks
Advanced protocols |
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| Syllabus |
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Basics
• IP Routing basics
• Limitations of IP Routing
• MPLS as a fast routing solution
• The concept of MPLS
• Benefits of MPLS
• Applications of MPLS
• The control and data lanes
o The data plane and label forwarding
o The control plane, routing, multicast routing, VPN routing, TE and QoS
Technology basics and Architecture
• Label definition
• Label PUSH and POP
• The Label-Switch Router (LSR)
• Label-Switch Edge Router (E-LSR)
• Label Switch Path
• Label Information Base
• Label Stacks
• Label Distribution Protocol
• Establishing an LSP
Label Forwarding and Label Distribution Protocol
• Label Structure and allocation
• LIB and LFIB Setup
• Label Distribution
• LDP – Label Distribution Protocol
• Label Switch Paths
• Explicit Label Switch Paths
• Loop Detection in MPLS
• LDP Hop Count
• LDP Path Vector TLV
MPLS VPN Technology
• Virtual Private Networks
• MPLS VPN Architecture
• BGP in MPLS networks
• MPLS VPN Routing and Forwarding tables
o MPLS VPN Routing Requirements
o MPLS VPN Routing - CE Router Perspective
• VPLS and VPLS architecture
o VPLS control and data plane
o VPLS signaling
• AToM – Any Transport over MPLS
o AToM architecture
o AToM control and data plane
Traffic Engineering
• TE – Overview
• TE information distribution
• TE LSPs
• RSVP
• Forwarding traffic into MPLS TE tunnels
QoS and MPLS
• DiffServ overview
• PHBs – Per Hope Behaviors
• Label Forwarding Model for Diff-Serv LSRs and Tunneling Models
• Operations of E-LSPs
• Operation of L-LSPs
Additional Protocols
• Generalized MPLS (G-MPLS)
• Transport MPLS (T-MPLS)
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