5 Must Know Facts For Your Next Test

1. In star topology, if one cable fails, only the device connected to that cable is affected, while the rest of the network remains operational.
2. Star topology is often used in fiber optic networks because it supports high-speed data transmission and minimizes signal degradation.
3. The use of switches in star topology enhances performance by directing data packets only to the intended recipient, reducing unnecessary traffic.
4. Star topology can be more expensive than other configurations due to the need for more cables and the cost of central hubs or switches.
5. This topology is scalable, meaning it's easy to expand the network by simply adding new devices to the central hub without needing significant reconfiguration.

Review Questions

• How does the structure of star topology enhance the reliability of a network?
  • Star topology enhances reliability because each device is independently connected to a central hub. If one connection fails, it does not affect the others, allowing the network to continue functioning normally. This independence reduces the risk of widespread network failure and makes troubleshooting easier since issues can be isolated to specific connections.
• What are the advantages and disadvantages of using star topology in fiber optic communication systems?
  • The advantages of star topology include ease of installation, scalability, and improved performance due to data packets being directed by a central hub. However, disadvantages include higher costs associated with cabling and hardware. Additionally, if the central hub fails, the entire network becomes inoperable, making it a single point of failure.
• Evaluate how the implementation of switches in star topology impacts data transmission efficiency in fiber optic networks.
  • The implementation of switches in star topology significantly enhances data transmission efficiency by managing data traffic intelligently. Unlike a basic hub that broadcasts data to all connected devices, switches direct data packets only to their intended recipients. This targeted approach reduces network congestion and minimizes collisions, allowing for faster and more reliable communication, which is crucial in high-speed fiber optic networks.

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