Cal Poly Ethernet
je. Introduction
UN. Overview of Ethernet
B. Importance of Ethernet in the modern world
II. History of Ethernet
UN. Invention and development
B. Early use and limitations
C. Evolution and standardization
III. Ethernet Components
UN. Câbles Ethernet
1. Types of cables (e.g., Chat 5, Chat 6)
2. Cable construction and specifications
B. Network interface cards (cartes réseau)
1. Functions and types of NICs
2. Compatibility with different Ethernet standards
C. Switches and routers
1. Roles and functionalities in Ethernet networks
2. Differences between switches and routers
IV. Ethernet Standards
UN. 10BASE-T and 100BASE-TX
1. Speed and transmission characteristics
2. Common uses and limitations
B. Gigabit Ethernet (1000BASE-T)
1. Increased speed and bandwidth
2. Applications and benefits
C. 10 Gigabit Ethernet (10GBASE-T)
1. Advancements in high-speed networking
2. Current and future implementations
V. Ethernet in Local Area Networks (LAN)
UN. LAN architecture and topology
B. Ethernet as a dominant LAN technology
C. LAN management and security considerations
VI. Ethernet in Wide Area Networks (WANs)
UN. Ethernet for long-distance networking
B. WAN access technologies (e.g., Ethernet over MPLS)
C. Challenges and solutions in WAN Ethernet
VII. Future of Ethernet
UN. Emerging Ethernet standards and technologies
B. Integration with emerging technologies (e.g., IdO)
C. Potential impact on industries and society
VII. Conclusion
UN. Recap of Ethernet’s significance
B. Importance of staying updated with Ethernet advancements
C. Closing thoughts on the future of Ethernet.