lowest bridge ID
In a spanning tree topology, the switch with the lowest Bridge ID becomes the central point of reference, or the root bridge. The Bridge ID is determined by a combination of the switch's priority value and its MAC address. If multiple switches have the same priority, the switch with the lowest MAC address is chosen as the root bridge. This selection process helps ensure a loop-free network topology.
Spanning Tree Election CriteriaSpanning Tree builds paths out from a central point along the fastest available links. It selects path according to the following criteria:1. Lowest root bridge ID (BID)2. Lowest path cost to the root3. Lowest sender bridge ID4. Lowest sender port ID (PID)Therefore, the answer to your question is Lower Bridge ID
A star topology.
Star topology
The physical network topology that has the inherent weakness of a single point of failure is the star topology. In a star topology, all devices are connected to a central hub or switch. If this central device fails, the entire network becomes inoperable, as all communication relies on it. This makes the network vulnerable to disruptions if the hub experiences any issues.
The topology you're describing is known as a star topology. In a star topology, all network devices are connected to a central hub or switch, which acts as the main point of communication. If this central point fails, the entire network becomes inoperable, as no devices can communicate with each other. This design is often used for its simplicity and ease of troubleshooting, but it does create a single point of failure.
No, there is not.
A star topology; a network topology in which endpoints on a network are connected to a common central device by point-to-point links.
bus topology
It is called a Star topology
A star topology is completely disrupted when a key central device, typically a hub or switch, stops operating. In this configuration, all devices are connected to the central device, and its failure means that communication between all connected devices is halted. Without this central point, the network becomes inoperative, preventing data transmission.
The topology used in a network that connects all its computers and communication devices to a central server is called a star topology. In this configuration, each device is connected individually to a central hub or switch, allowing for efficient data transmission and easy management. If one connection fails, it does not affect the rest of the network, making it a reliable choice for many setups. However, if the central hub fails, the entire network becomes inoperable.