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'''Two-level scheduling''' is a [[computer science]] term to describe a method to more efficiently perform process [[Scheduling (computing)|scheduling]] that involves [[swapped out]] [[process (computing)|processes]].
Consider this problem: A system contains 50 running processes all with equal priority. However, the system's [[computer storage|memory]] can only hold 10 processes in memory simultaneously. Therefore, there will always be 40 processes swapped out written on [[virtual memory]] on the
With straightforward [[Round-robin scheduling]], every time a [[context switch]] occurs, a process would need to be swapped in (because only the 10 least recently used processes are swapped in). Choosing randomly among the processes would diminish the probability to 80% (40/50). If that occurs, then obviously a process also need to be swapped out. Swapping in and out of is costly, and the scheduler would waste much of its time doing unneeded swaps.
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Thus, the higher-level scheduler selects among those processes in memory that have run for a long time and swaps them out. They are replaced with processes on disk that have not run for a long time. Exactly how it selects processes is up to the implementation of the higher-level scheduler. A compromise has to be made involving the following variables:
* [[Response time (technology)|Response time]]: A process should not be swapped out for too long. Then some other process (or the user) will have to wait needlessly long. If this variable is not considered [[resource starvation]] may occur and a process may not complete at all.
* Size of the process: Larger processes must be subject to fewer swaps than smaller ones because they take longer time to swap. Because they are larger, fewer processes can share the memory with the process.
* Priority: The higher the priority of the process, the longer it should stay in memory so that it completes faster.
==References==
* [[Andrew S. Tanenbaum|Tanenbaum]], [[Albert Woodhull]], ''Operating Systems: Design and Implementation'', p.92
{{Processor scheduling}}
▲[[Category:Scheduling algorithms]]
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