what kind of typology do Ethernet networks normally use
True. At the center of the star is a hub, or a switch.
No, today virtually all networks use some variation of a star topology. It's far less subject to failure.
The "star" topology is the most common.
Either bus topology or star toplogy.
Several variations of Ethernet exist. At some moment, a bus topology was quite common, but nowadays, a star or extended star - with a hub or switch at the center of the star - is more common.Several variations of Ethernet exist. At some moment, a bus topology was quite common, but nowadays, a star or extended star - with a hub or switch at the center of the star - is more common.Several variations of Ethernet exist. At some moment, a bus topology was quite common, but nowadays, a star or extended star - with a hub or switch at the center of the star - is more common.Several variations of Ethernet exist. At some moment, a bus topology was quite common, but nowadays, a star or extended star - with a hub or switch at the center of the star - is more common.
I assume you are talking about network topology. I have worked in several schools in a couple school districts. Some older school networks were setup on a token ring. I think it would be safe to assume that most networks are now a star topology using ethernet.
A star topology.A star topology.A star topology.A star topology.
Bus star ring mesh hybrid
star topology and flukes network pack
star topology. Because they include a centralized connection point; can easily be moved, isolated, or interconnected with other networks; they are, therefore, scalable. For this reason, and because of their fault tolerance, the star topology has become the most popular layout used in contemporary LANs.
Draw a hybrid topology with a ring backbone and three bus networks.P
One of the most popular topologies for Ethernet LANs is the star and extended star topology. It is easy to setup, it's relatively cheap, and it creates more redundancy than the Bus Topology. The Star Topology works by connecting each node to a central device. This central connection allows us to have a fully functioning network even when other devices fail. The only real threat to this topology is that if the central device goes down, so does the entire network. The Extended Star Topology is a bit more advanced. Instead of connecting all devices to a central unit, we have sub-central devices added to the mix. This allows more functionality for organization and subnetting- yet also creates more points of failure. In many cases it is impractical to use a Star Topology since networks can span an entire building. In this case, the Extended Star Topology is all but necessary to prevent degraded signals. Whereas the Star Topology is better suited for small networks, the Extended Star Topology is generally better for the larger ones.