The CCNA Routing and Switching program fully covers networking from the basics to complex applications and services, and provides opportunities for hands-on experience and professional development.
In each course, Networking Academy ™ students will learn basic technology concepts through an interactive environment and apply that knowledge through a series of hands-on and modeling exercises that reinforce their skills. CCNA Routing and Switching provides comprehensive information on the principles of networking technologies and the skills required, from describing network applications to the protocols and services that are provided to these applications by the lower layers of the network. Students will start with basic networking and will gradually move to more complex corporate and theoretical networking models later in the course of this curriculum.
The CCNA Routing and Switching program includes the following aspects: ccnp switching
Students learn the fundamentals of routing and switching and advanced technologies to prepare for the Cisco CCENT and CCNA certification exams, graduate programs in networking, and getting started in information and communications technology.
The principles of networking are described in a language that is accessible to learners at all levels, and the accompanying interactive exercises enhance understanding.
The course focuses on critical thinking, problem solving, collaboration, and the practical application of skills.
Multimedia learning tools, including videos, games, and quizzes, use a variety of learning styles to help you speed up learning progress and reinforcement.
Simulation-based hands-on labs and training exercises using Cisco® Packet Tracer software help students develop critical thinking and problem-solving skills.
Built-in grading tools provide immediate feedback to assess knowledge and acquired skills.
CCNA1. Introduction to networking
Study of the network. Network technologies today, local and global networks, network components ..
Setting up a network operating system. Cisco IOS Operating System Maintenance, Command Structure, Basic Configuration ..
Network protocols and communications. Networking protocols, coding, formatting and encapsulation of data, network interaction models.
Network access. Physical layer protocols, data transmission media, link layer protocols, media access control.
Ethernet. Ethernet technology, Ethernet frame structure, MAC addresses, ARP protocol.
Network layer. Network layer protocols, IPv4 and IPv6, packet forwarding, routing basics.
Transport layer. Transport layer protocols, TCP and UDP.
IP addressing. Structure of IP addresses, ICMP protocol.
Dividing IP networks into subnets. Subnet masks, CIDR and VLSM technologies, network address planning.
Application layer . Application layer protocols
It's a network . Small network devices and protocols, security, ping, tracert, and show commands, configuration file backup and restore
CCNA2. Basics of Routing and Switching
An introduction to switched networks. Local area network design, frame forwarding, broadcast domains and collision domains.
Basic switching configuration. Basic switch configuration, switch security.
VLANs. VLANs, VLAN trunks, DTP, VLAN security.
Routing concept. Basic router configuration, router functions, determination of the shortest path, routing table analysis, connected networks, static and dynamic routes.
Inter-VLAN routing. Inter-vlan routing methods, third-level switches.
Static routing. Types of static routes, setting up static routes, class and classless addressing.
Dynamic routing. Functioning of dynamic routing protocols, types of dynamic protocols, configuring RIP and RIPng protocols.
Single-area OSPF protocol. OSPF Features, OSPFv2 and OSPFv3 Configuration.
Access control lists. ACL assignment, standard and extended ACLs, ACL configuration and packet processing.
DHCP . DHCPv4 server and client configuration
IPv4 network address translation . Characteristics and types of NAT, advantages of using NAT, configuring static and dynamic NAT, PAT.
CCNA3. Scaling networks
An introduction to scaling networks. Hierarchical network design, selection of network devices .
Redundancy of local networks. Spanning tree protocol, purpose, operation and configuration of STP, STP, HSRP, GLBP.
Aggregation of connections . EtherChannel, PAgP and LACP.
Wireless local area networks. 802.11 WLAN topologies, WLAN components, 802.11 frame structure, wireless security.
Single-area OSPF configuration and troubleshooting. OSPF on Multiple Access Networks, Security in OSPF, Troubleshooting OSPF.
OSPF implementation with multiple areas. Configuring OSPF with multiple areas, route types, route summarization.
Implementation of the EIGRP protocol. EIGRP characteristics, EIGRP packet and message types, EIGRP configuration for IPv4 and IPv6, DUAL algorithm, route metrics .
Advanced EIGRP configuration and troubleshooting. Automatic and manual summarization, security, EIGRP troubleshooting.
IOS file and image management and licensing. File management in Cisco IOS, IOS licensing, license management, license check.
CCNA4. Connecting networks
Hierarchical network design. Overview of Hierarchical Network Design, Cisco Enterprise Architecture, Cisco Borderless Network.
Connection to the global network. Overview of WAN technologies, choice of WAN technology.
Point-to-Point connections. PPP, HDLC, PPP setup, PPP PAP and CHAP authentication setup .
Frame Relay. Operation and configuration of Frame Relay.
IPv4 network address translation. Characteristics and types of NAT, advantages of using NAT, configuring static and dynamic NAT, PAT.
Broadband solutions. Teleworking, broadband solutions, broadband technology selection, PPPoE setting.
Securing Site-to-Site Connection. VPN types, Site-to-Site GRE tunnels, IPsec Framework, VPN remote access solutions.
Network monitoring. Description and configuration of Syslog, SNMP and NetFlow.
Troubleshoot network problems. A systematic approach to troubleshooting, symptoms, tools, and methods for troubleshooting network problems
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