Network Performance Optimization: Understanding Minimum Frame Size in CSMA/CD Networks

What factors are considered when determining the minimum frame size in a CSMA/CD network?

The minimum frame size in a CSMA/CD network is influenced by factors such as the propagation delay of signals on the cable, round-trip time (RTT), transmission rate, and network utilization. These factors play a crucial role in ensuring efficient data transmission and collision detection within the network.

Propagation Delay and Round-Trip Time (RTT)

Propagation delay refers to the time taken for a signal to travel from the sender to the receiver through the network medium. In the context of determining the minimum frame size in a CSMA/CD network, the propagation delay of signals on the cable is a key factor. By calculating the round-trip time (RTT) of the signal, which is the time taken for a signal to travel from the sender to the receiver and back, we can estimate the minimum frame size required for effective data transmission.

Transmission Rate and Network Utilization

The transmission rate of a network refers to the speed at which data is transmitted within the network. In the case of a CSMA/CD network running at 1 Gbps (1,000,000,000 bits per second), the transmission rate plays a significant role in determining the minimum frame size. Additionally, network utilization is a crucial factor in calculating the minimum frame size. Network utilization represents the percentage of time the network is busy transmitting data. A high level of network utilization can impact the minimum frame size required for efficient data transmission.

Calculation of Minimum Frame Size

Through the formula: Minimum Frame Size = (RTT * Transmission Rate) / (1 - Utilization), we can compute the minimum frame size necessary for optimal performance in a CSMA/CD network. By considering factors such as propagation delay, round-trip time, transmission rate, and network utilization, network administrators can determine the most appropriate frame size to minimize collisions and ensure effective data transmission.
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