A technician wants to monitor and provide traffic segmentation across the network. The technician would like to assign each department a specific identifier. Which of the following will the technician MOST likely use?
A technician wants to monitor and provide traffic segmentation across the network. The technician would like to assign each department a specific identifier. Which of the following will the technician MOST likely use?
The technician will most likely use VLAN tagging to monitor and provide traffic segmentation across the network while assigning each department a specific identifier. VLAN tagging allows network administrators to create separate virtual networks within a physical network, each with its own unique identifier, facilitating better traffic management, security, and monitoring.
Whoever took this test failed it. So many wrong answers. Network segmentation is VLAN tagging.
Wouldn't the correct solution for this be, VLAN Tagging C? Since the technician is looking to assign each department a specific identifier. Flow Control specifics for managing the rate of data transmission. Traffic Shaping is QoS + Bandwidth Management control, but wouldn't have much to do with identifying each department
segregation is the keyword
The technician would most likely use VLAN tagging to monitor and provide traffic segmentation across the network by assigning each department a specific identifier. VLAN tagging allows network administrators to define VLANs logically rather than physically, by assigning a unique identifier or tag to each network frame. By using VLAN tagging, network administrators can create logical network segments that behave as if they are physically separate, allowing them to manage network traffic and enforce security policies more effectively.
Definitely C: To monitor and provide traffic segmentation across the network, a technician may use the concept of VLANs (Virtual Local Area Networks). VLANs are a way of dividing a single physical network into multiple logical networks, each with its own unique identifier or "tag." By assigning each department a specific VLAN identifier, the technician can segment the network traffic and ensure that the different departments' traffic is kept separate from one another. This can help to improve network security, performance, and scalability, as well as allowing for better monitoring and control of the network traffic. To implement VLANs, the technician will need to configure VLAN tagging on the network devices, such as switches and routers, and assign each department's devices to the appropriate VLAN. The technician may also need to configure VLAN trunking to allow the different VLANs to communicate with each other. By using VLANs, the technician can effectively monitor and segment the network traffic, providing better control and visibility into the network.
Segmentation works by controlling how traffic flows among the parts. You could choose to stop all traffic in one part from reaching another. This is done by dividing a network into segments. This can be done through subnetting & does not have necessarily to be done through VLAN tagging.
"The technician would like to assign each department a specific identifier" Are you just deliberately ignoring this part of the question or??
That's the part that diverts you to the correct answer, which is C.
it is C
C. VLAN tagging
this one is bad lol
its c vlan tagging
C. VLAN tagging VLAN tagging is a method of assigning a specific identifier, called a VLAN ID, to a group of devices on a network. This allows the network administrator to segment the network into different logical groups, or VLANs. Each VLAN can be assigned a different network address, and traffic between VLANs can be controlled and monitored. By assigning a specific VLAN ID to each department, the technician can easily identify and segment the traffic of each department on the network. Flow control is a method used to control the amount of data that can be transmitted at one time, typically to prevent data overflow on the network. Traffic shaping is a method used to control the rate at which data is transmitted over a network, typically to ensure that certain types of traffic receive priority over others. Network performance baselines are used to establish a standard of network performance over a period of time, which can be used to identify and troubleshoot network issues.
If a packet comes to a port tagged for VLAN 2, it will be forwarded only through VLAN 2 ports. To monitor
Flow control is use to monitor
Tagging