NE Routers Operation and Maintenance Training (Including the Basic O&M Training) Training)

Training Path

Target Audience

Installers and Commissioning Staffs Operators and Maintainers

Prerequisites

 A genera familiarity with PC operation system

 A basic understanding of computer technology NE Series Routers Routine Maintenance

ORT23 Lecture 0.5d

IP QoS Technology

ORSF1 Lecture, Hands-on exercise 1d HA Technology

ORSG1 Lecture, Hands-on exercise 1d MPLS VPN Technologies

ORSDA Lecture, Hands-on exercise 3d IP Routing Technologies (A)

ORS5A Lecture, Hands-on exercise 3d Huawei VRP System

ORS21 Lecture, Hands-on exercise 1d NE Series Routers Introduction

ORT21 Lecture 0.5d

Objectives

On completion of this program, the participants will be able to:

 Describe NE series routers hardware structure

 Describe NE series routers board types and functions

 Identify NE series routers board

 Judge NE series routers board indicators and functions

 Describe NE series routers positioning and application scenarios

 Describe NE series routers features Overview

 Describe the VRP architecture

 Use basic operation commands

 Describe the function of VRP information center

 Perform VRP operate files

 Operate VRP upgrade software

 Describe the basic feature of OSPF protocol

 Describe the route calculation process of link state algorithm

 Describe the basic concept of OSPF

 Describe OSPF protocol packets

 Describe route calculation process of OSPF

 Configure OSPF protocol

 Describe the principle of BGP protocol

 Describe the common attributes of BGP protocol

 Describe BGP protocol route selection process

 Distinguish the differentia of BGP protocol and IGP protocol

 Configure BGP protocol

 Distinguish routing policy and policy-based route

 Describe route selection tools and routing policy

 Describe policy-based route selection

 Configure routing policy

 Analyze the process of IP forwarding

 Analyze the disadvantage of IP forwarding

 Describe the basic principle of MPLS forwarding

 List the applications of MPLS

 Describe MPLS structure feature that contains two planes

 Describe MPLS label structure

 Describe the process of MPLS data forwarding

 Describe LDP neighbor discovery mechanism

 Describe the process of LDP session establishment

 Describe LDP label space

 Describe LDP label distribution mode

 Describe LDP label control mode

 Describe LDP label retention mode

 Describe the PHP

 List the methods of MPLS loop detection

 Analyze the method of MPLS TTL processing

 Describe LDP path vector and maximum hop count

 Configure MPLS

 Configure LDP

 Describe the model of BGP MPLS VPN

 Describe the basic concepts referred to BGP MPLS VPN

 Describe the mechanisms of the route and label distribution in BGP MPLS VPN

 Describe the process of data forwarding of BGP MPLS VPN

 Describe the basic MPLS BGP VPN configuration

 Describe the extended BGP attributes used by MPLS BGP VPN

 Describe the troubleshooting on control plane of MPLS BGP VPN

 Describe the troubleshooting on data plane of MPLS BGP VPN

 Describe VPN Characteristics

 Describe the difference between MPLS L2 VPN and L3 VPN

 Describe MPLS L2 VPN architect and data encapsulation

 Describe VPWS and VPLS Features

 List VPWS and VPLS solutions for specific scenario

 Describe CCC VLL Topology

 Describe how to establish tunnel in CCC mode

 Describe how the data is forwarded in CCC mode

 Configure CCC in a simple network topology

 Describe Martini VLL Topology

 Describe how public tunnel and VC connection are established in Martini VLL

 Describe how the data is forwarded in Martini VLL

 Describe the difference between Martini VLL and SVC VLL

 Configure Martini VLL and SVC VLL in a simple networking topology

 Describe the features of VPLS

 Describe how does VPLS get Tunnel Label and VC Label

 Describe how does VPLS forward data and avoid loop

 Configure VPLS in a simple networking topology

 Configure VPLS

 Describe the basic concept of HA

 List common HA technologies in network

 Describe VRRP basic concept and principles

 Configure VRRP on VRP platform

 Describe BFD basic concept and principles

 Describe application scenarios of BFD

 Configure BFD on VRP platform

 Describe basic concepts of IP QoS

 Describe Diff-Serv model

 Describe the principle of IP QoS

 Describe the classed-based QoS

 Configure QoS

 List precautions for NE series routers routine maintenance

 Perform NE series routers routine maintenance Training Content

ORT21 NE Series Routers Introduction

 NE40E-X Product Hardware Introduction

 NE40E-X routers hardware architecture

 NE40E-X routers board types

 NE40E-X routes board functions and specifications features

 NE5000E80E40E Products Features Description

 NE5000E/80E/40E product positioning and application scenarios

 NE5000E/80E/40E route features

 NE5000E/80E/40Eservice features

 NE5000E/80E/40E QoS features

 NE5000E/80E/40E HA features

 NE5000E/80E/40E IPv6 features ORS21 Huawei VRP System

 VRP System Architecture

 VRP overview

 VRP Basic Configuration

 VRP Basic Configuration

 VRP Information Center

 VRP file operation

 VRP software upgrade

 Hands-on Exercise Guide to Huawei VRP Configuration Basics

 VRP basic operation configuration

 Remote device management

 Terminal information output control

 File system management

 FTP operation

ORS5A IP Routing Technologies (A)

 OSPF protocol feature and configuration

 OSPF protocol overview

 Basic OSPF concepts

 OSPF route calculation

 OSPF configuration

 OSPF application scenarios

 Hands-on Exercise Guide to OSPF Protocol

 Single OSPF area configuration

 OSPF multi-area configuration

 OSPF special area configuration

 External route import configuration

 OSPF default route configuration

 BGP Feature and Configuration

 BGP overview

 BGP route transfer process

 BGP path control and selection

 Configuration of BGP

 Hands-on Exercise Guide to BGP Protocol

 IBGP and EBGP

 BGP route aggregation

 BGP attributes and path selection

 Route Selection and Control Feature

 Route selection and control overview

 Route selection and control tools

 Route selection and control

 Hands-on Exercise Guide to Route Selection and Control Feature

 Route import and routing control

 Access control to enterprise data using ACL ORSDA MPLS VPN Technologies

 MPLS Basic Concepts and Application

 Traditional IP Forwarding

 MPLS Forwarding Feature

 MPLS Applications

 MPLS Basic Principle

 MPLS Basic Structure

 MPLS Label Format

 MPLS Forwarding Process

 LDP Neighbor Discovery and Session Establishment

 LDP Basic Concept

 LDP Neighbor Discovery Mechanism

 The Process of LDP Session Establishment

 LDP Label Management

 LDP Label Space

 LDP Label Distribution

 LDP Label Control

 Hands-on Exercise Guide to MPLS Technology

 MPLS basic configuration

 VPN Technologies Overview

 VPN concept and VPN types

 MPLS BGP VPN Basic Principle

 MPLS BGP VPN model

 Basic concepts of MPLS BGP VPN

 The mechanisms of the route and label distribution of MPLS BGP VPN

 The data forwarding process of MPLS BGP VPN

 MPLS BGP VPN Configuration and Realization

 Configure VPN-instance

 Configure PE-CE BGP

 Configure MP-BGP

 Configure the Routing Protocols Used by PE-CE

 MPLS BGP VPN Troubleshooting

 Basic Principle Review

 Troubleshooting on Control Plane

 Troubleshooting on Data Plane

 Hands-on Exercise Guide to MPLS BGP VPN

 MPLS BGP VPN basic configuration

 HUB/Spoke network configuration

 MPLS L2 VPN Overview

 What is VPN and VPN Classification

 MPLS L2 VPN and MPLS L3 VPN Comparison

 MPLS L2 VPN Architecture and Data Forwarding

 VPWS Reference Model

 VPLS Reference Model

 Advantages of MPLS L2 VPN

 CCC VLL

 CCC Topology

 Data Forwarding

 Configuration Example

 Martini VLL and SVC VLL

 Martini VLL Topology

 VC Connection

 Data Forwarding

 Configuration Example

 VPLS

 VPLS Overview

 VPLS Components

 VPLS Signaling

 Data Encapsulation

 Mac Address Learning and Withdrawal

 Loop Avoidance

 Configuration Example

 Hands-on Exercise Guide to VPWS

 Local CCC connection configuration

 Remote CCC connection configuration

 MARTINI VLL connection configuration

 Hands-on Exercises to VPLS

 KOMPELLA VPLS configuration

 MARTINI VPLS Configuration ORSG1 HA Technology

 HA Overview

 The high availability of the network

 HA Technologies

 VRRP Feature and Configuration

 VRRP overview

 VRRP principle

 VRRP configuration

 Hands-on Exercise Guide to VRRP Feature

 VRRP basic configuration

 Configure VRRP tracking uplink interface

 Special VRRP priority configuration

 BFD Technologies

 Outline of BFD

 Packet structure

 Detect principle

 Typical application in network

 Hands-on Exercise Guide to BFD Technologies

 BFD configuration

 BFD for OSPF configuration

 BFD for BGP configuration

 BFD for VRRP configuration ORSF1 IP QoS Technology

 IP QoS Feature Description and configuration

 IP QoS overview

 Diff-Serv model basis

 IP QoS technology basis

 IP QoS application on the enterprise network

 Classed-based QoS

 Hands-on Exercise Guide to IP QoS Feature

 Priority re-marking configuration based on complex traffic classification

 Interface-based traffic policing configuration

 Classed-based traffic policing configuration

 Classed-based traffic shaping configuration

 Congestion avoidance and congestion management configuration ORT23 NE Series Routers Routine Maintenance

 NE Series Routers Routine Maintenance

 NE series routers routine maintenance items introduction

 NE series routers routine maintenance operation direction Duration

10 working days Class Size

Min 6, Max 12

In document Training Proposal. Training Description for Enterprise Network COMMERCIAL IN CONFIDENCE 1 (Page 121-129)