Friday, December 14, 2018

Network Topology- Ring Topology, Star Topology, Bus Topology


Network Topology


Network Topology- Ring Topology, Star Topology, Tree Topology, Bus Topology. Today, we want to know about network topologies network topology. It is a layout of the network that computer networks are either physical or network connected. So this means that, when a data transfer occurs in a predefined layout, then it is logical. Network Topology









Network Topologies- Ring Topology, Star Topology, Tree Topology, Bus Topology
Topology



Topology:-


 

That's the main cable to talk about the first topology here. And many computers are connected to the main cable, this type of topology is known as just topology in this topology. All computers are connected to the main center or the main cable bus data flows in the same direction. It is cost-effective, it is used in small households in your home. It's easy to expand. But it is slow and dependent on the main cable. Which means, if the main cable fails, then all networks will fail to proceed to the next topology. network topology



 

1- Ring Topology:-


Network Topology. These are computers that are connected in the structure of a ring, which is now known as the ring topology in this topology data. The statement that the unity is flowing in the strictest, from here to here, sometimes it can also be on the other side. This type is now known as the double ring topology. It is unaffected by high traffic. It is very cheap to install. But it is prone to failures. This means that if a computer fails from one ring, then all networks will fail. network topology
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2- Star Topology:-


 

Let's go to the next topology, now it's a hub or switch and all the computers are connected to that central center. This type of topology is known as Star Topology in this topology. There is a dedicated connection for all computers. Which perform very fast. And easily upgrade the hub but the installation cost is high. And the entire topology network is dependent, which means. If the hub fails then all networks will go down. network topology.



 


3- Point to Point Topology:-


 

There are four computers and servers to go to the next topology and the server is connected to everyone. Computers are connected with each other. This type of topology is known in the topology as the topology of the topology. It has an N (N-2) / 2 channel for the device. There are two ways for data transfer that routing.  network topology. Computers or hubs already know all. And there is an algorithm that finds the best and the shortest way to send data. This topology is strong, it is fully connected. And the best example of S ecology and this topology is P2P connections such as UTorrent. network topology.


 


4- Tree Topology:-


 

Now going to the next topology, this is the main bus. And as you can see. That's hubs and in those hubs, computers are connected in star formation. This type of topology is known as tree topology. Because it is a combination of two topologies bus and star topologies. Now it is used in the van. Which means that the wide area network easily expands the nodes. Which means that you can easily add many other devices and Star Networks easily. Maintaining this network is very easy. But this central center is also dependent. This means that if the main bus fails. So all the networks will now fail to move forward in the next topology. network topology.



 


5- Hybrid Topology:-


 

This is the main bus and as you are watching. Topology is a ring topology with a ring topology. And if more than two types of topologies are combined, the ring topology is connected to the central center. Then this type of topology is known as hybrid topology. Which is used to handle large amounts? This topology, if any computer fails. So easy to identify and remove it has improved network performance easily. But on the negative side, it is very expensive.


 

6- Bus Topology:-


 

Network Topology. One approach to consider a transport topology is that the line associated with the majority of the gadgets or hubs in the system resembles a path along which a flag makes a trip so as to discover the hub to which it is to be conveyed. Normally, the link in the transport topology has two end terminals that hose the flag with the goal that it doesn't continue moving from one end of the system to the next. Diverse sorts of transport topology can be alluded to as straight or appropriated transport topology.

 

A straight transport topology suggests that there is only one line related with two unmistakable endpoints. In a dispersed transport topology, there might be more than one direct example associated with the system. Transport topologies are regularly esteemed for their straightforwardness and lower cost of execution. Notwithstanding, one downside is that if the focal line is endangered, the whole system will go down. Additionally, it very well may be hard to investigate these sorts of frameworks, and issues like information flag misfortune can happen with a more drawn out straight link. network topology.


4 Comments:

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