When establishing a computer network, you should decide which network topology to use. There are many different types of network topologies in use today, each with its own set of advantages and disadvantages.
Network performance, scalability and simplicity of maintenance are all influenced by the network topology you choose. As a result, selecting the correct new network type is important. It also offers advice on the network topology to utilize in various instances.
A mesh, bus, or ring network topology is an example of a hybrid topologies, which combines two or more separate network structures. Its usage and selection are dictated by its deployment and needs, which include the needed network performance, the number of devices, and the locations of those devices.
Topology Of A Point-to-Point Network
When only two computers or other network devices are connected, the point-to-point network topology is the simplest. In this situation, only a single cable is used.
Connecting two computers (that have Ethernet-based adapters with RJ-45 ports) using a twisted pair cable is the most typical example of point-to-point network topology (UTP Cat 5e, FTP Cat 5e, STP Cat 5e, etc.). The P2P topology is another name for point-to-point topologies.
Bus Topology
A single cable connects all of the included nodes in a bus topology. The primary cable serves as the network’s backbone. The computer server is one of the machines on the network. A linear bus topology is defined as having two terminals.
Star Topology
All machines in a type of star topology link through a hub. This cable is known as a central node, and it is used to connect all other nodes. It’s most prevalent on LAN networks because it’s cheap and simple to set up.
What is Network Topology?
The network topology, also known as network configuration, describes the network’s structure and how its components are connected. The crc value in topology is an error-detection code that is extensively employed in digital networks and storage devices to detect inadvertent data modifications. Physical and logical topologies are the two forms of network topology.
Physical Topology
The physical topology of a computer network explains how network devices are connected directly to each other. Network topology includes the geometric system, linkages and connections, device placement, quantity of adapters, kinds of dongles, cable type, and connector used in the network.
Logical Topology
The data flow from one station to another, how data is transferred and received, the path of data in the network, and which protocols are used have all been represented by logical topology. The logical network topology describes how data is routed through a physical network. The logical topology includes cloud and virtual network resources.
Conclusion
This blog post described network topologies, CRC value, covering physical and logical topologies, as well as real-world applications. Use the star topology, which is the most prevalent network architecture today, or the bus network topology, which is a highly scalable version of the star topology, to design a local area network.
