Overview
HCIA-Datacom V1.0 certification aims to train and certificate engineers with basic datacom knowledge and skills. The Datacom certification is an upgraded version of the Routing & Switching certification, which will replace the Routing & Switching certification as Huawei’s standard for building datacom talent capabilities. The Routing & Switching certification will continue until the end of 2021. HCIA-Datacom V1.0 includes the following contents: Routing and switching principles, basic WLAN principles, basic knowledge of network security, basic knowledge of network management and O&M, and basic knowledge of SDN and programming automation.
Structure
General Course Objective
Upon completion of this course, you will have a basic understanding of small and medium-sized networks, including general network technologies, and the ability to assist the design of small and medium-sized networks, and implement the designs using Huawei routing and switching devices.
Specific Course Objectives
After completing the training, you will be able to:
- Understand the definition of data communication and the capability model of data communication engineers.
- Understand the network reference model and the entire data communication process.
- Be familiar with the VRP system and be able to perform basic operations.
- Understand IPv4 address protocol and related concepts
- Understand the forwarding principles of Layer 3 devices such as routers and Layer 3 switches.
- Understand the concept of routing and use static route or OSPF to build a Layer 3 network.
- Understand basic Ethernet concepts and describe the functions and working principles of Layer 2 switching devices.
- Be familiar with common Ethernet protocols, such as VLAN, Spanning Tree Protocol , link aggregation and stacking.
- Configure ACLs and AAA to provide basic security solutions for the network.
- Be familiar with the NAT protocol and master the NAT configuration in different scenarios.
- Master the configuration of common services on enterprise networks, such as DHCP, FTP and Telnet.
- Understand basic WLAN concepts and complete basic configurations of small or medium-sized WLAN networks.
- Understand basic WAN concepts and WAN solutions such as MPLS and SR.
- Have general knowledge of basic concepts of enterprise network management.
- Be familiar with traditional network management and SDN-based network management solutions.
- Have a good command of IPv6 protocols and be able to build small-scale IPv6 networks.
- Have a good command of the campus network construction process. Be able to independently construct small-sized campus networks.
- Understand the basic concepts of SDN and programming automation and master the basics of Python.
- Master the configuration of common services on enterprise networks, such as DHCP, FTP and Telnet.
- Understand basic WLAN concepts and complete basic configurations of small or medium-sized WLAN networks.
- Understand basic WAN concepts and WAN solutions such as MPLS and SR.
- Have general knowledge of basic concepts of enterprise network management.
- Be familiar with traditional network management and SDN-based network management solutions.
- Have a good command of IPv6 protocols and be able to build small-scale IPv6 networks.
- Have a good command of the campus network construction process. Be able to independently construct small-sized campus networks.
- Understand the basic concepts of SDN and programming automation and master the basics of Python.
Course Breakdown
1. Data Communication and Network Basics
1.1 Data Communication Network Basics
1.1.1 Basic Concepts of Data Communication
1.1.2 Data Transfer Process
1.1.3 Network Devices and Basic Functions
1.1.4 Network Type and Topology Type
1.1.5 Network Engineering
1.1.6 Network Engineers
1.2 Network Reference Model
1.2.1 What is Data and Data Transfer
1.2.2 Common Standard Protocols
1.2.3 Layered Model Concept
1.2.4 Application Layer and Related Protocols
1.2.5 Transport Layer and Related Protocols
1.2.6 Network Layer and Related Protocols
1.2.7 Data link Layer and Related Protocols
1.2.8 Physical Layer and Related Protocols
1.2.9 Data Transfer, Encapsulation and Decapsulation
1.3 Huawei VRP Basics
1.3.1 Common Network Devices
1.3.2 VRP Basics
1.3.3 CLI Command Views
1.3.4 Basic Commands and Function Keys of the CLI
2. Constructing an Interconnected IP Network
2.1 Network Layer Protocol and IP Addressing
2.1.1 Network Layer Protocol
2.1.2 Concept, Classification, and Special IP Addresses of IPv4
2.1.3 IP Network and IP Subnet Calculation
2.1.4 IP Network Address Planning
2.2 IP Routing Basics
2.2.1 Basic Working Principles of Routers
2.2.2 Routing Table Concepts
2.2.3 Routing and Forwarding Features
2.2.4 Static Route Configuration
2.3 OSPF Basics
2.3.1 Basic Features of OSPF
2.3.2 OSPF Application Scenarios
2.3.3 Working Principle of OSPF
2.3.4 Basic OSPF configurations
3. Constructing an Ethernet Switching Network
3.1 Ethernet Switching Basics
3.1.1 Basic Concepts of Ethernet
3.1.2 Concept of MAC Address
3.1.3 Working Process and Principles of Layer 2 Switches
3.1.4 Composition and Formation of a MAC Address Table
3.2 VLAN Principles and Configuration
3.2.1 Background of VLAN
3.2.2 Basic Concepts and Principles of VLAN
3.2.3 VLAN Data Communication Process on a Layer 2 Network
3.2.4 Basic VLAN Configuration
3.3 Spanning Tree Protocol
3.3.1 Background of STP
3.3.2 Basic Concepts and Working Principles of STP
3.3.3 Basic Concepts of RSTP and Improvements Compared with STP
3.3.4 Basic STP Configuration
3.3.5 Other Layer 2 Loop Elimination Technologies
3.4 Ethernet Link Aggregation and Switch Stacking
3.4.1 Basic Concepts of Link Aggregation
3.4.2 Working Principles of Manual Link Aggregation
3.4.3 Working Principles and Features of Link Aggregation in LACP Mode
3.4.4 Basic Concepts of iStack and CSS
3.5 Implements Communication Between VLANs.
3.5.1 Working Principles of Sub-interfaces
3.5.2 Working Mechanism of Layer 3 Switches
3.5.3 Sub-interface Configuration
3.5.4 VLANIF Configuration
4. Network Security and Network Access Basics
4.1 ACL Principles and Configuration
4.1.1 Basic Principles and Functions of ACLs
4.1.2 Basic Structure and Matching Order of ACL Rules
4.1.3 Usage of Wildcard mask
4.1.4 Basic ACL Configuration
4.2 AAA Principles and Configuration
4.2.1 Basic Principles and Application Scenarios of AAA
4.2.2 Basic Configuration of the Local AAA
4.3 NAT Basics
4.3.1 Background of NAT
4.3.2 NAT Classification and Technical Principles
4.3.3 NAT Configuration in Different Scenarios
5. Network Services and Applications
5.1 Network Services and Applications
5.1.1 Principles of TFTP, FTP, DHCP, and HTTP
5.1.2 Configuration of FTP and DHCP
6. WLAN Basics
6.1 WLAN Overview
6.1.2 Basic Concepts of WLAN and History of 802.11 Protocol suite
6.1.3 WLAN devices
6.1.4 WLAN Networking Mode
6.1.5 WLAN Working Process
6.1.6 Basic WLAN Configuration
7. WAN Basics
7.1 WAN Technology Basics
7.1.1 Basic WAN Concepts
7.1.2 Common WAN Technologies
7.1.3 Working Principles of PPP and PPPoE
7.1.4 Configuring PPP and PPPoE
7.1.5 Basic Concepts of MPLS/SR\
8. Network Management and O&M
8.1 Network Management and O&M
8.1.1 Basic Concepts of the NMS and O&M
8.1.2 Common NMS and O&M Methods and Tools
8.1.3 Working Principle of SNMP
8.1.4 SDN-based NMS and O&M Solution
9. IPv6 Basics
9.1 IPv6 Basics
9.1.1 Comparison Between IPv6 and IPv4
9.1.2 Basic Concepts of IPv6
9.1.3 Format and Principle of the IPv6 Packet Header
9.1.4 IPv6 Address Format and Address Type
9.1.5 IPv6 Address Configuration Method and Procedure
9.1.6 Static and Dynamic IPv6 Address Configuration
9.1.7 IPv6 Static Route Configuration
10. SDN and Automation Basics
10.1 SDN and NFV Basics
10.1.1 Basic SDN Concepts
10.1.2 Huawei SDN Products and Solutions
10.1.3 Basic NFV Concepts
10.1.4 Huawei NFV Products and Solutions
10.2 Network Programming and Automation
10.2.1 Traditional Network O&M Status Analysis
10.2.2 Implementation of Network Automation
10.2.3 Programming Language
10.2.4 Python Coding Specifications
10.2.5 Implement Basic Automatic O&M Using Python telnetlib.
11. Typical Campus Network Architectures and Practices
11.1 Typical Networking Architecture and Cases
11.1.1 Campus Network Architecture
11.1.2 Campus Network Lifecycle
11.1.3 Campus Network Construction Cases
11.1.4 Campus Network Construction Practice
Course Facilitators:
This course is delivered by highly skilled and experienced Huawei Certified Instructors who have also attained the HCIA Datacom, HCIP, HCIE, among other related certifications.
Admission Requirements
Target Audience
- Individuals who want to become Data Communication Engineers
- Individuals who wants to obtain the HCIA-Datacom Certification
Prerequisite
- Basic understanding of IT technologies and network knowledge
- Basic computer literacy
- Basic PC operating system navigation skills
- Basic internet usage skills
HCIA Datacom Version 1.0 Exam Details
- Exam Code: H12 – 811
- Duration: 90 mins
Fees and Funding
HCIA Datacom Version 1.0 Exam Details
- Exam Code: H12 – 811
- Duration: 90 mins