IP & DCN Planning for Microwave Networks 2016 IP & DCN Planning for Microwave Networks To equip trainees with in-depth understandings and practical knowledge of IP / MPLS & DCN Planning and its Implementation in a Telecommunications environment. Falcon Computers 7/21/2016
Course Overview When your business relies on a solidly functioning IP network, it s not the time to forget about the foundation upon which it is built. Understanding the basic and advanced principles of IP/MPLS & DCN technologies can make a difference when your network must support real-time services like streaming video, Voice over IP, e-learning or even be properly secured against hackers. This customized course focus on vendor-independent IP/MPLS & DCN Planning and Implementation at large carrier network. It lays a solid foundation for dealing with the choice of routing protocols and their efficient operation, route redistribution, IP/MPLS (DCN) design on both wireline and wireless network, Layer 2 and Layer 3 MPLS VPN technologies, Traffic Engineering, implementation of VLANs, ensuring that your IP infrastructure can support advanced services through the understanding of effective topologies and bandwidth requirements, and providing you with insights that will help with the Planning and Implementation of network security. Whether you are a seasoned network professional looking for a refresher or new to the business of networking, don t miss this opportunity to master the fundamentals before deploying advanced services on your network. This course equips with hands on simulation of real case. Key Benefits Get the latest facts and developments surrounding IP/MPLS (DCN) Planning and Implementation in a Telecom (GSM or UMTS) network Improve your understanding of a critical WAN technology Pre-Requisites for Participants Background in TCP/IP and data communications is recommended. Who Should Attend? Network Engineering Managers Technical Managers IP Transmission Planners Network Planners who are planning the Microwave or IP/MPLS network Network Engineers & Designers who are designing or deploying a Telco IP/MPLS network
Course Outline Introduction and Overview Course Objectives New challenges facing Telco Operator Business Motivation for a single convergent IP Infrastructure Carrier Layer 2 Technologies TDM vs Ethernet Carrier Ethernet Evolution of IEEE Ethernet standards: From 10BaseT to 100 Gigabit Ethernet Customer facing access technologies DSL, DOCSIS, FTTH, Edge, HSPA, LTE Ethernet Switching Fundamentals Bridging and Switching Technologies Spanning Tree Protocol Virtual LANs (VLANs) Trunking Technologies and Applications Layer 3 Switching IP Routing Concepts OSI 7-Layer Reference Module Layer 3 IP Addressing (IPv4 and IPv6) Designing Proper IP Address Space IP Routing Static vs Dynamic, FLSM & VLSM & CIDR Routing Protocols Overview Routing Redistribution Routing Information Protocol (RIP) RIP Operation RIP Version 1, Version2 Feature Summary Workshop: RIP Configuration Open Shortest Path First (OSPF) OSPF Overview OSPF Messages Link State Advertisements (LSAs) OSPF Operations OSPF Hierarchical Design Areas Designated Routers Area Boarder Routers
ASBRs OSPF on Broadcast and Non-Broadcast Multi-Access (NBMA) Networks Feature Summary Workshop: OSPF Configuration Integrated IS-IS IS-IS Overview IS-IS Protocol Data Units (PDUs) IS-IS Operations IS-IS Hierarchical Design Areas Designated Routers Level 1 Routers Level 2 Routers Level 1/2 Routers Feature Summary Workshop: IS-IS Configuration Border Gateway Protocol (BGP) BGP Overview BGP Operations BGP Messages BGP Attributes ebgp vs ibgp ibgp and IGP Synchronization Autonomous Systems Large-Scale BGP Peering Feature Summary Workshop: BGP Configuration Multi Protocol Label Switching (MPLS) Technology The Drawbacks of Traditional IP Routing Basic MPLS Concepts and Label Switch Router (LSR) Types Label Distribution Protocol (LDP) Loop Prevention and Detection in MPLS MPLS Implementations Summary
Layer 3 MPLS VPN Technology Major VPN Technologies and Topologies Layer 3 MPLS VPN vs Peer-to-Peer VPN Architectural Blocks Routing Model and Packet Forwarding Provider Edge Customer Edge Routing Protocols Static Routes OSPF RIP ebgp Advance Layer 3 MPLS VPN Design Inter-AS VPN Summary Workshop: MPLS VPN Configuration Layer 2 VPN Technologies Layer 2 VPN Overview Point-to-Point and Point-to-Multipoint VPN Ethernet Private Line Ethernet Virtual Private Line Inter-Working Multipoint VPN Ethernet LAN - VPLS Ethernet Tree VPLS Scalability Issue and Solutions Ethernet Network to Network Interface (NNI) Other Types Of Layer 2 VPN Non MPLS Summary Traffic Engineering With MPLS Traffic Engineering Overview Traffic Engineering Theory Information Distribution Path Selection / Calculation Path Setup Trunk Admission Control Path Maintenance Forwarding Traffic On to Tunnel Tunnel Attributes Refresh Reduction Tunnel Protection & Summary
MPLS Implementation in Telecom (GSM / UMTS) Networks Overview Wireline Operator Implementations Enterprise VPNs Infrastructure / Service VPNs Traffic Engineering Wireless Operator Implementations IP RAN Packet Core Mobile VPN Summary Quality Of Service (QoS) QoS Overview Packet Classification and Marking IEEE 802.1p IP Precedence DiffServ Code Point (DSCP) MPLS Experimental Bit Congestion Management - Queuing Congestion Avoidance Tail Drop Random Early Detection (RED) Weighted Random Early Detection (WRED) Shaping and Policing MPLS QoS Pipe Mode Traffic Engineering Summary Security Best Practice In SP Network Overview Routing / Peering Protection Infrastructure Protection Service Protection Separated Management Network Summary Note: This is 5 days course. For more customized or 3 days course, some of the modules will be excluded.