ISRO CSE 2013


Q51.

A particular parallel program computation requires 100 seconds when executed on a single CPU. If 20% of this computation is strictly sequential, then theoretically the best possible elapsed times for this program running on 2 CPUs and 4 CPUs respectively are
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Q52.

A starvation free job scheduling policy guarantees that no job indefinitely waits for a service. Which of the following job scheduling policies is starvation free?
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Q53.

A CPU scheduling algorithm determines an order for the execution of its scheduled processes. Given 'n' processes to be scheduled on one processor, how many possible different schedules are there?
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Q54.

Consider the following set of processes, with arrival times and the required CPU-burst times given in milliseconds. \begin{array}{|l|l|l|l|} \hline \textbf{Process} & \textbf{Arrival time} & \textbf{Burst Time} \\\hline \text{$P_1$} & \text{0} & \text{4} \\\hline \text{$P_2$} & \text{2} & \text{2} \\\hline \text{$P_3$}& \text{3} & \text{1} \\\hline \end{array} What is the sequence in which the processes are completed? Assume round robin scheduling with a time quantum of 2 milliseconds?
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Q55.

Ethernet layer-2 switch is a network element type which gives.
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Q56.

If the frame to be transmitted is 1101011011 and the CRC polynomial to be used for generating checksum is x^{4}+x+1, than what is the transmitted frame?
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Q57.

How many check bits are required for 16 bit data word to detect 2 bit errors and single bit correction using hamming code?
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Q58.

What will be the efficiency of a Stop and Wait protocol, if the transmission time for a frame is 20ns and the propagation time is 30ns?
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Q59.

Which of the following is not a necessary condition for deadlock?
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Q60.

Consider the following process and resource requirement of each process.\begin{array}{|c|c|c|c|c|} \hline {\text { Process }} & {\text { Type 1 }} & {\text { Type 1 }} & {\text { Type 2 }}& {\text { Type 2 }} \\ \hline & \text { Used } & \text { Max } & \text { Used } & \text { Max } \\ \hline \text { P1 } & 1 & 2 & 1 & 3 \\ \hline \text { P2 } & 1 & 3 & 1 & 2 \\ \hline \text { P3 } & 2 & 4 & 1 & 4 \\ \hline \end{array}Predict the state of this system, assuming that there are a total of 5 instances of resource type 1 and 4 instances of resource type 2.
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