Ethernet Bus Topology
In a bus topology, all hosts share a single physical segment (the bus or the
backbone) to communicate:
In a bus topology, all hosts share a single physical segment (the bus or the
backbone) to communicate:
A frame sent by one host is received by all other hosts on the bus. However,
a host will only process a frame if it matches the destination hardware
address in the data-link header.
Bus topologies are inexpensive to implement, but are almost entirely
deprecated in Ethernet. There are several disadvantages to the bus topology:
• Both ends of the bus must be terminated, otherwise a signal will
reflect back and cause interference, severely degrading performance.
• Adding or removing hosts to the bus can be difficult.
• The bus represents a single point of failure - a break in the bus will
affect all hosts on the segment. Such faults are often very difficult to
troubleshoot.
A bus topology is implemented using either thinnet or thicknet coax cable.
a host will only process a frame if it matches the destination hardware
address in the data-link header.
Bus topologies are inexpensive to implement, but are almost entirely
deprecated in Ethernet. There are several disadvantages to the bus topology:
• Both ends of the bus must be terminated, otherwise a signal will
reflect back and cause interference, severely degrading performance.
• Adding or removing hosts to the bus can be difficult.
• The bus represents a single point of failure - a break in the bus will
affect all hosts on the segment. Such faults are often very difficult to
troubleshoot.
A bus topology is implemented using either thinnet or thicknet coax cable.
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