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CCNA - 7.4.2 -
5 days -
Instructor-led (classroom)
CCNA: CISCO Certified Network Associate (ICND 2)
Price: 2,875
Table of Contents
Introduction
Audience
Prerequisites
Certified Professional
Exams
Student Materials
Course Outline
Introduction
This five-day course will help you better understand how networking is defined, implemented, and supported in the real world. It provides a Cisco-specific network perspective so that you are able to understand and prepare for the Cisco
ICND2 640-816 exam.
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Audience
Students who are working toward CCNA certification.
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Prerequisites
Students should have:
- A thorough understanding of network fundamentals including OSI model, TCP/IP Protocol, basic Cisco hardware familiarity.
- Completed the CCENT course (ICND 1), if pursuing certification.
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Certified Professional Exams
Cisco 640-802 exam as well as the ICND1 640-822 and ICND2 640-816 exams.
The CCNA certification (Cisco Certified Network Associate) indicates a foundation in and apprentice knowledge of networking. CCNA certified professionals can install, configure, and operate LAN, WAN, and dial access services for small networks (100 nodes or fewer), including but not limited to use of these protocols: IP, EIGRP, Serial, Frame Relay, IP RIP, VLANs, RIP, Ethernet, Access Lists.
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Student Materials
The student kit includes a comprehensive workbook and other necessary materials for this class that is conducted in a hosted lab environment.
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Course Outline
This course begins with chapter 4 of combined CCENT and CCNA materials
Chapter 4: IP Routing
Topics covered:
EIGRP
OSPF
Chapter 4: Labs
4.1: Static Routing and Verification - In this lab you will establish static routes between your pod and your pod partners pod. You will use a default route on your PxR2 router and static routes on your PxR1 router as well as the backbone router.
4.2: RIP Routing and Verification - In this lab you will configure your network with RIPv2 routing.
4.3: EIGRP Routing and Verification - In this lab you will configure EIGRP routing on all your routers.
4.4: OSPF Single Area Configuration and Verification - In this lab you will configure OSPF, single area, on your network.
4.5: OSPF DR and BDR elections - In this lab you will manipulate the routers that become the DR and BDR.
4.6: Written Lab: IP Routing
Chapter 5: Advanced TCP/IP
Topics covered:
Class C subnetting review
Class B subnetting
VLSM design and implementation
Discontiguous Networks
Summarization
Chapter 5 Labs
5.1: Written Lab: Class B Subnetting
5.2: Written Lab: Variable Length Subnet Masks and Summarization
Chapter 6: Security
Topics covered:
Introduction to Security
Standard Access Lists
Extended Access Lists
Named Access Lists
Chapter 6: Labs
6.1: Configuring Standard IP Access Lists - In this lab you will restrict your PxR1 router from being able to access your PxR3 router but still allow route updates from your PxR1 router to communicate with your PxR2 router.
6.2: Limiting VTY Access - In this lab you will stop your pod partner's PyR3 router from telneting into your PxR1 router by using the "access-class" command.
6.3: Configuring a Named Extended IP Access List - In this lab you will create a named extended access-list on your PxR2 router that will stop your PxR1 router from telneting into your PxR3 router, but you will still be able to ping the router from your PxR1 router.
Chapter 7: Network Address Translation
Topics covered:
Static NAT
Dynamic NAT Pools
Port Address Translation (PAT)
Chapter 7: Labs
7.1: Configuring Your Routers for NAT - In this lab you will configure NAT on your PxR1 router to translate the private IP address of 192.168.2x.3 of your PxR3 router to the address of 172.16.1x.3 which is on the subnet between your PxR1 and Core (corex-y) router.
7.2: Configuring Dynamic NAT - In this lab you'll configure a dynamic NAT pool on the PxR1 router.
7.3: Configuring PAT - In this lab you'll configure Port Address Translation (PAT) on the PxR1 router. We will use PAT because we don't want a one-to-one translation, but instead we want to just use one IP address for every user on the network.
Chapter 8: Switching
Topics covered:
Virtual LAN�s (VLAN�s)
Spanning Tree Protocol (STP)
Chapter 8: Labs
8.1: Configuring Trunking, VLANs and VTP - In this lab you will connect to the Core (Csx-y) switch and configure trunk ports, VLANs and VTP between your switches.
8.2: Written Lab: Switching
Chapter 9: Wireless LAN�s
Topics covered:
802.11
Basic Service Sets (BSS)
Chapter 9: Lab
9.1: Written Lab: Introduction to Wireless LAN's
Chapter 10: Introduction to IPv6
Topics covered:
IPv6 Addressing
Implementing IPv6
Chapter 11: Cisco WAN Support
Topics covered:
Basic WAN
HDLC
PPP
Frame Relay
Chapter 11: Labs
11.1: Configuring PPP - In this lab you will use the PPP encapsulation method and authentication between two routers.
11.2: Configuring Frame Relay - In this lab you will configure Frame Relay between you and your partner using the backbone router as a Frame Relay switch.
11.3: Verifying Frame Relay - In this lab you will issue numerous "show" commands that are useful in troubleshooting frame relay networks.
11.4: Written Lab: Frame Relay
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