- VTP Troubleshooting Part 1
- VTP Troubleshooting Part 2
- VTP Troubleshooting Part 3
- Campus troubleshooting scenario 1: Can you find the issue?
- Campus troubleshooting scenario 2: Can you find the issue?
- Users cannot ping? Which layer of the OSI model broke?
- Campus troubleshooting scenario 3: Can you find the issue?
- IP default gateway versus default route
- Address Resolution Protocol (ARP) explained (with Wireshark)
- LAN and WAN troubleshooting Scenario: Can you find the issue?
- Routed ports, Switchports and SVIs - what and how?
- How to configure Layer 3 switching and interVLAN routing
- How to configure Layer 3 switching and interVLAN routing for the CCNA
- How to configure Layer 3 switching and interVLAN routing for the CCNA
- MAC Address troubleshooting scenario: Can you find the issue?
What you'll learn
- Troubleshoot Campus Networks in preparation for the Cisco CCNA Exam
- Learn how ARP works
- Learn what Routed Ports are
- Explain the difference between ip-default gateway and ip default route
- Learn how to configure layer 3 switching
Description
The Cisco CCNA exam requires that you know how to troubleshoot Ethernet networks. You need to understand ARP, MAC address learning, Ethernet frames and more. You need to be able to troubleshoot Ethernet networks.
In this course you will review multiple Ethernet troubleshooting scenarios and learn how to fix Campus Network issues. You will also learn about the ARP protocol, layer 3 switching, SVIs, routed ports and more.
It's time to get ready for your CCNA exam!
Here is a brief overview of Ethernet from Wikipedia:
Ethernet is a family of computer networking technologies commonly used in local area networks (LAN), metropolitan area networks (MAN) and wide area networks (WAN). It was commercially introduced in 1980 and first standardized in 1983 as IEEE 802.3, and has since been refined to support higher bit rates and longer link distances. Over time, Ethernet has largely replaced competing wired LAN technologies such as token ring, FDDI and ARCNET.
The original 10BASE5 Ethernet uses coaxial cable as a shared medium, while the newer Ethernet variants use twisted pair and fiber optic links in conjunction with hubs or switches. Over the course of its history, Ethernet data transfer rates have been increased from the original 2.94 megabits per second (Mbit/s) to the latest 100 gigabits per second (Gbit/s). The Ethernet standards comprise several wiring and signaling variants of the OSI physical layer in use with Ethernet.
Systems communicating over Ethernet divide a stream of data into shorter pieces called frames. Each frame contains source and destination addresses, and error-checking data so that damaged frames can be detected and discarded; most often, higher-layer protocols trigger retransmission of lost frames. As per the OSI model, Ethernet provides services up to and including the data link layer.
Since its commercial release, Ethernet has retained a good degree of backward compatibility. Features such as the 48-bit MAC address and Ethernet frame format have influenced other networking protocols. The primary alternative for some uses of contemporary LANs is Wi-Fi, a wireless protocol standardized as IEEE 802.11.
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About the instructors
- 4.66 Calificación
- 1218650 Estudiantes
- 51 Cursos
David Bombal
CCIE #11023, over 15 years of network training experience
David Bombal (CCIE #11023 Emeritus) passed his Cisco Certified Internetwork Expert Routing and Switching exam in January 2003 and is one of a small percentage of Cisco Engineers that pass their CCIE labs on their first attempt.
David qualified as a Cisco Certified Systems Instructor (CCSI #22787) many years ago! He has been training Cisco courses for over 15 years and has delivered instructor led courses in various countries around the world covering a wide range of Cisco topics from CCNA to CCIE.
David is very active on social media and has over 500,000 YouTube subscribers and has posted over 1,000 free videos.