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I have read that an operating system implements scheduling using the following method:

  • The CPU must have a hardware timer that fires an interrupt every X milliseconds.
  • Once the timer interrupt fires, the timer interrupt handler will execute instructions that will make the CPU start executing another process (or another thread I guess I should say).

My question is: Is the method I just described the only way to implement scheduling?

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No. Basically there are two basic methods of implementing multithreading in an operating system:

1) Preemtive Multitasking

With preemtive multitasking you can usw interrupt source to trigger your task switch. Most of the time one does task switching inside the timer ISR(Interrupt Service Routine) in case a long running task is executed and no other hardware events have happened. In case other hardware events have happened one might also do a task switch to blocking threads with higher priority to allow handling of hardware events.

2) Cooperative Multitasking

In cooperative Multitasking the operating system switches threads whenever a system call is executed. This can either be a special system call that allows an application to explicitly trigger a task switch (like Yield used in early multitasking systems like Windows 3.11, classical Mac OS, etc.). One can also implement cooperative multitasking completely inside user mode.

Today most operating systems take a hybrid approach - they react to hardware events (in case a long running thread never calls the systems routines and no other I/O happens this would be the timer) but they may also switch tasks in a cooperative way whenever applications perform syscalls or call system supplied libraries.

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    It means that in the common implementations you are normally switching stacks, pagetables, etc. (depends on how you manage threads and processes - on x86 you might only need to exchange CR3 and the stack pointer to switch a thread and process) inside the timer interrupt service routine (ISR). If any other hardware event happens in between you may also switch inside their ISRs or during any syscall that happens in between. – tsp Dec 27 '18 at 20:15
  • "one might also do a task switch to blocking threads with higher priority" I don't understand this part, do you mean switch to a thread that is blocking? – BinaryTreeee Dec 28 '18 at 1:33
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    @ptr_user7813604: A hardware event can make a thread runnable that was waiting. If the now-runnable thread has higher priority than the currently running thread, a context switch is required. – Ben Voigt Dec 28 '18 at 3:16
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A timer interrupt is needed for time slicing context switches between threads or processes of the same priority. An alternative for some multi-threaded preemptive embedded operating systems is to make every thread a different priority, which eliminates the need for time slicing or a timer interrupt. Interrupts can still be used to trigger context switches (in addition to threads using system calls to signal other threads), but a timer interrupt is not needed.

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