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∙ 14y agofull mesh WAN
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∙ 14y agoTopology refers to the way equipments are connected one to another. For example, in a star topology all machines are connected through a central connector (a hub or switch), in a full mesh every equipment is connected to every other equipment, etc.Topology refers to the way equipments are connected one to another. For example, in a star topology all machines are connected through a central connector (a hub or switch), in a full mesh every equipment is connected to every other equipment, etc.Topology refers to the way equipments are connected one to another. For example, in a star topology all machines are connected through a central connector (a hub or switch), in a full mesh every equipment is connected to every other equipment, etc.Topology refers to the way equipments are connected one to another. For example, in a star topology all machines are connected through a central connector (a hub or switch), in a full mesh every equipment is connected to every other equipment, etc.
Ring technology: In a ring network, every device has exactly two neighboring devices for communication purpose. It is called a ring topology as its formation is like a ring. In this topology, every computer is connected to another computer. Here, the last node is combined with a first one. This topology uses token to pass the information from one computer to another. In this topology, all the messages travel through a ring in the same direction.
in bus topology computers are connected with each other by a wire in a approximately strait manner..and if one computer stops working the whole network will stop. while in star topology every computer is connected with the host computer & much wire is require..and if any client computer tops working it will not effect the whole network.----ravi singh chauhan...7275974787
Full Mesh topology is used to connect every host or site to every other host or site. In a full mesh network, each node is connected directly to every other node in the network, providing a high level of redundancy and fault tolerance. However, it can be expensive and complex to implement on a large scale.
The best topology is ring topology. Star is the next best after ringr, and then bus, which is pretty old, but not too expensive. Full mesh topology is theoretically the best since every device is connected to every other device, thus maximizing speed and security. These, however, are quite expensive to install. The next best would be tree topology, which is basically a connection of stars.
Here are some common types of network topologies: Bus Topology: In a bus topology, all devices are connected to a single central cable (the bus). Data travels along the bus and is received by all devices on the network. Each device has a unique address, and devices communicate directly with the bus. Star Topology: In a star topology, each device is connected directly to a central hub or switch. All data passes through the central hub, which manages and controls the flow of information between devices. If one device fails, it does not affect the rest of the network. Ring Topology: In a ring topology, each device is connected to two other devices, forming a closed loop or ring. Data travels in one direction around the ring. Devices act as repeaters to strengthen the signal as it passes through each device. Mesh Topology: In a mesh topology, every device is connected to every other device in the network. This creates multiple paths for data to travel, enhancing reliability and fault tolerance. Mesh networks can be full mesh (every device connected to every other device) or partial mesh (only some devices are interconnected). Tree Topology: Tree topology combines characteristics of star and bus topologies. Devices are arranged in a hierarchical structure, with multiple star networks connected to a central bus backbone. This allows for scalability and efficient data flow. Hybrid Topology: Hybrid topology combines two or more different types of topologies to form a larger network. For example, a network might combine elements of star and mesh topologies to create a more flexible and scalable network infrastructure. Each type of network topology has its advantages and disadvantages in terms of cost, scalability, reliability, and ease of management. The choice of topology depends on factors such as the size of the network, the type of applications used, and the level of redundancy and fault tolerance required.
in bus topology computers are connected with each other by a wire in a approximately strait manner..and if one computer stops working the whole network will stop. while in star topology every computer is connected with the host computer & much wire is require..and if any client computer tops working it will not effect the whole network.----ravi singh chauhan...7275974787
Every organ is connected to the lungs by blood vessels. The heart is directly connected.
See related link for Network TopologiesTopology refers to the shape of a network , or the network's layout. How different nodes in a network are connected to each other and how they communicate are determined by the network's topology. Topologies are either physical or logical. Below are diagrams of the five most common network topologies.Mesh TopologyDevices are connected with many redundant interconnections between network nodes. In a true mesh topology every node has a connection to every other node in the network.Star TopologyAll devices are connected to a central hub. Nodes communicate across the network by passing data through the hub.Bus TopologyAll devices are connected to a central cable, called the bus or backbone.Ring TopologyAll devices are connected to one another in the shape of a closed loop, so that each device is connected directly to two other devices, one on either side of it.Tree TopologyA hybrid topology. Groups of star-configured networks are connected to a linear bus backbone.AlternativeDEF: A network (configuration) depiction made as an example by a techie.Omit the word concept together with the word techie for better understanding.
Some common types of network topologies include bus, ring, star, mesh, and hybrid. Bus topology uses a single cable to connect all devices, ring connects each device to two others in a ring, star has all devices connected to a central hub, mesh connects each device to every other device, and hybrid combines two or more different types of topologies.
star topology
by default, replication groups use a full mesh topology, which means that every member in a group replicates with every other member.