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A “collision domain” describes a network in which two devices can have packet collisions when sending packets over a shared network at the same time. Collision packages have been discarded and the lungs need to be reduced, reducing the speed and efficiency of the network.
Clashes usually occur in a hub environment because each port in the hub is in the same collision domain. Therefore, all devices connected to the hub can operate on the same collision domain and one device at a time, and other devices must listen to the network to avoid collisions. All network space is shared across all devices.
Unlike prisons, each port on a bridge, switch, or router has a different collision domain, which reduces and eliminates the possibility of a collision and allows devices to use full duplex communications. Full duplex communication doubles the speed of data storage. To understand the collision domains, see the following image:
You can see that there are eight collision domains in the topology in Above. Because the hub is a collection domain or all ports of the hub are in the same collection domain, each port of the router, bridge, and transmitter is a separate collision domain.
All devices in the broadcast domain can access the data link layer via broadcast. The broadcast domain can receive any broadcast packet from any device in the network segment. All hub and transfer ports look at the same transmission domain, but all router ports
All Hub and Switch ports are on the same transmission domain. Hubs and keys are transmitted from all interfaces except the accepted interface. Routers do not send broadcasts because the router does not send broadcasts to another interface when it receives a broadcast.
Each interface of the router looks at different broadcast domains and each broadcast is distributed within a special domain. Routers divide the boundaries of transmission domains. Now look at the same statistics for the submission domain.
In the image above, you can see the four assigned domains. This is because all the ports on the hub, bridge, and switch are on the same transmission domain and all the router interfaces are on the same transmission domain.
The 2-layer devices send programs called ARP to a well-known IPv4 address on the local network to find the appropriate MAC address. The host can receive the IP address configuration from the DHCP server using the Dynamic Host Configuration Protocol (DHCP). A large transfer domain can connect multiple hosts. One problem with large broadcast domains is over-transmission and negative impact on the network.
Numerous transmissions also reduce network bandwidth for normal traffic, as transmission traffic is transmitted to all devices in the domain. This also reduces the processing power of computers and network devices. This is because computers and networking devices are required to process all transmission packets that have received the power of the central processing unit, which is used for packet processing.
So we need to reduce the transmission.
The router needs to be plugged into the network to reduce transmission. The router is a great device, so it is not possible to integrate the router into many networks. Another way to reduce this is through the network.
Subnetting is a process that reduces network traffic and improves network performance and simplifies management. With the help of the network, we can easily dismantle parts of the network. We can also apply security policies, such as which subnets are allowed to communicate together. There are different ways to use a subnet. Network administrators can also configure subnet services:
Different floors in one building.
Another part of the organizations
Various devices, such as servers, printers, and hosts
Another significant distribution for the network.