Linux Resource Management: Difference between revisions

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The implementation monitors the virtual runtime for each process (<tt>vruntime</tt>). At every scheduling point, if the process has run for t milliseconds, <tt>vruntime</tt> is incremented with t multiplied with the weight of the process, henceforth vruntime monotonically increases for a process. When a context change occurs (timer interrupt), always choose the task with lowest <tt>vruntime</tt>.
The implementation monitors the virtual runtime for each process (<tt>vruntime</tt>). At every scheduling point, if the process has run for t milliseconds, <tt>vruntime</tt> is incremented with t multiplied with the weight of the process, henceforth vruntime monotonically increases for a process. When a context change occurs (timer interrupt), always choose the task with lowest <tt>vruntime</tt>.


Relative priority amongst processes is enforced by the fact that the  <tt>vruntime</tt> is updated proportionally with the process weight: for a lower priority process, <tt>vruntime</tt> increases ''faster'', so the process returns to ready queue more often.
Relative priority amongst processes is enforced by the fact that the  <tt>vruntime</tt> is updated proportionally with the process weight, which is inverse proportional with the priority of the process: for a lower priority process, <tt>vruntime</tt> increases ''faster'', so the process returns to ready queue more often.


In order to pick the process with the lowest vruntime, the scheduler maintains a [[Red-black Tree|red-black tree]].
In order to pick the process with the lowest vruntime, the scheduler maintains a [[Red-black Tree|red-black tree]].

Revision as of 19:26, 8 February 2018

Internal

CPU

Schedulers

CFS Scheduler

The CFS (Completely Fair Scheduler) aims at dividing the CPU time fairly among the processes. The processor time is divided in quantas, and for each quanta, the scheduler attempts to distribute the processor time fairly across the processes in the ready queue.

The implementation monitors the virtual runtime for each process (vruntime). At every scheduling point, if the process has run for t milliseconds, vruntime is incremented with t multiplied with the weight of the process, henceforth vruntime monotonically increases for a process. When a context change occurs (timer interrupt), always choose the task with lowest vruntime.

Relative priority amongst processes is enforced by the fact that the vruntime is updated proportionally with the process weight, which is inverse proportional with the priority of the process: for a lower priority process, vruntime increases faster, so the process returns to ready queue more often.

In order to pick the process with the lowest vruntime, the scheduler maintains a red-black tree.

RT Scheduler

TO DISTRIBUTE