The most common network devices used are routers and switches. But we still hear people talking about hubs, repeaters, and bridges. Do you ever wonder why these former devices are preferred over the latter ones? One reason could be: ‘because they are more efficient and powerful’. But what actually is the reason behind their efficiency? This is when terms like “Collision Domains” and “Broadcast Domains” come into picture.
Before going further, let us recall that a hub is a multiple-port repeater. Similarly, a switch is a multiple-port bridge so that you can understand why repeaters and bridges are not typically used in production networks(because of less number of ports).
Now, narrowing down to Hubs, Switches and Routers, let us discuss them in reference with the blow domains.
- Collision Domain –
A Collision Domain is a scenario in which when a device sends out a message to the network, all other devices which are included in its collision domain have to pay attention to it, no matter if it was destined for them or not. This causes a problem because, in a situation where two devices send out their messages simultaneously, a collision will occur leading them to wait and re-transmit their respective messages, one at a time. Remember, it happens only in case of a half-duplex mode.
- Broadcast Domain –
A Broadcast Domain is a scenario in which when a device sends out a broadcast message, all the devices present in its broadcast domain have to pay attention to it. This creates a lot of congestion in the network, commonly called LAN congestion, which affects the bandwidth of the users present in that network.
From this, we can realize that more the number of collision domains and more the number of broadcast domains, the more efficient is the network providing better bandwidth to all its users.
So, which of our network devices break collision domains and which of them break broadcast domains?
- HUB –
We start with a hub because we should get rid of it as soon as possible. The reason being, it neither breaks a collision domain nor a broadcast domain. All the devices connected to a hub is in a single collision and single broadcast domain. Remember, hubs do not segment a network, they just connect network segments.
- SWITCH –
Coming to switches, we have an advantage over the hub. Every port on a switch is in a different collision domain. So messages that come from devices connected to different ports never experience a collision. This helps us during designing networks but there is still a problem with switches. They never break broadcast domains. All the ports on the switch are in still in a single broadcast domain. If a device sends a broadcast message, it will still cause congestion.
- ROUTER –
Last, but not least, we have our savior. A router not only breaks collision domains but also break broadcast domains. A router creates a connection between two networks. A broadcast message from one network will never reach the other one as the router will never let it pass.
Also, as repeaters and bridges differ from hubs and switches only in terms of the number of ports, a repeater does not break collision and broadcast domains, while a bridge breaks only collision domains.
CCNA, Todd Lammle
This article is contributed by Achiv Chauhan. If you like GeeksforGeeks and would like to contribute, you can also write an article using contribute.geeksforgeeks.org or mail your article to email@example.com. See your article appearing on the GeeksforGeeks main page and help other Geeks.
Please write comments if you find anything incorrect, or you want to share more information about the topic discussed above.
- Computer Network | Classless Inter Domain Routing (CIDR)
- Computer Network | Difference between Unicast, Broadcast and Multicast
- Computer Network | Collision-Free Protocols
- Computer Network | Collision Avoidance in wireless networks
- DNS (Domain Name Server) | NetWorking
- DBMS | Domain Key normal form
- Introduction to Active Directory Domain Services
- Creating custom domain name instead of localhost in Ubuntu
- Program to determine Class, Broadcast address and Network address of an IPv4 address
- Computer Network | Simple network management protocol (SNMP)
- Computer Network | Integrated services digital network (ISDN)
- Computer Network | Types of Network address translation (NAT)
- Computer Network | Synchronous Optical Network (SONET)
- Computer Network | Packet flow in the same network
- Computer Network | Packet flow in different network
Improved By : Akanksha_Rai