[&] What congestion avoidance mechanism guarantees a predefined amount of queue depth for high-priority traffic at the expense of packets marked with lesser priorities, which are completely blocked from the queue once their threshold has been reached? (Select the best answer) - WRED - WTD -- Correct - TD - SRR [&] Which congestion avoidance mechanism is likely to still allow a certain, reduced amount of IP-Precedence 4 traffic into a queue, even if the queue's threshold for that particular precedence has been exceeded? (Select the best answer) - TD - WTD - SRR - WRED -- Correct [&] When using WRED, if you set your Minimum-Drop-Threshold to equate to 90% of the queue depth, which of the statements below will be true? (**Select the best answer**) - It is highly likely that you'll experience Tail Drop because random drops will occur when the queue has consumed very few resources. - None of these answers are accurate. - It is very unlikely that you'll experience any Tail Drop because no random drops will ever occur. - It is highly likely that you'll experience Tail Drop because random drops won't occur until the queue is virtually exhausted of resources. -- Correct - It is very unlikely that you'll experience any Tail Drop because random drops won't occur until the queue is virtually exhausted of resources. [&] Which congestion avoidance mechanism will prevent all IP-Precedence 4 traffic from entering a queue after the queue's threshold for that particular precedence has been exceeded? (Select the best answer) - SRR - WTD -- Correct - WRED - TD