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Chapter 2.2 : Process Scheduling

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1 Chapter 2.2 : Process Scheduling
Process concept  Process scheduling Interprocess communication Deadlocks Threads

2 Scheduling Select process(es) to run on processor(s)
Process state is changed from “ready” to “running” The component of the OS which does the scheduling is called the scheduler

3 Types of Scheduling Scheduling is divided into various levels.
These levels are defined by the location of the processes A process can be available to be executed by the processor partially or fully in main memory in secondary memory is not started yet

4 Types of Scheduling Long Term Scheduling. Medium Term Scheduling.
The decision to add to the pool of processes to be executed. Medium Term Scheduling. The decision to add to the process in main memory. Short Term Scheduling. The decision as to which process will gain the processor. I/O Scheduling. The decision as to which process's I/O request shall be handled by a device.

5 Scheduling Criteria Fairness : each process should get a fair share of the CPU Efficiency: keep CPU 100% utilized Response time : should be minimized for interactive users Turnaround : minimize batch turnaround times Throughput : maximize number of jobs processed per hour

6 User-Oriented, Performance Criteria
Criteria Aim Response Time low response time, maximum number of interactive users Turnaround Time time between submission and completion Deadlines maximise deadlines met

7 System-oriented, Performance Criteria
Criteria Aim Throughput allow maximum number of jobs to complete Processor maximise percentage of time processor is busy utilisation Overhead minimise time processor busy executing OS

8 System oriented, other criteria
Criteria Aim Fairness treat processes the same avoid starvation Enforcing Priorities give preference to higher priority processes Balancing Resources keep the system resources busy

9 Important Factors I/O boundedness of a process
CPU boundedness of a process Is the process interactive or batch? Process priority Page fault frequency Preemption frequency Execution time received Execution time required to complete

10 Types of Scheduling A scheduling algorithm is non-preemptive (run to completion) if the CPU cannot be taken away by the OS. A scheduling algorithm is preemptive if the CPU can be taken away by the OS. Cooperative Scheduling is the scheduling algorithm used by some operating systems (such as Windows versions up to 95 in which processes relinquish the control of CPU for some reason (I/O, waiting for some event etc.)

11 The Interrupting Clock
The OS sets the interrupting clock to generate an interrupt at some specified future time. This interrupt time is the process quantum. Provides reasonable response times and prevents the system being held up by processes in infinite loops.

12 Scheduling Algorithms
FCFS Round Robin Virtual Round Robin Priority Priority Classes Shortest Job First Shortest Remaining Time Highest Response Ratio Next Feedback Queues

13 FCFS (First Come First Serve)
Implementation: As each process becomes ready, it joins the ready queue. When the current process finishes the oldest process is selected next. Characteristics: Simple to implement Nonpremptive Penalises short and I/O-bound processes

14 Round Robin (RR) Implementation: Characteristics:
Processes are dispatched FIFO. But are given a fixed time on the CPU (quantum - time slice). Characteristics: Preemptive Effective in time sharing environments Penalises I/O bound processes

15 Quantum Size Some Options: Large or small quantum
Fixed or variable quantum Same for everyone or different If quantum is to large RR degenerates into FCFS If quantum is to small context switching becomes the primary job being executed A good guide is quantum should be slightly larger than the time required for a typical interaction

16 Virtual Round Robin (VRR)
A modification to the RR algorithm to remove the bias towards CPU bound processes. Implementation: Two “ready” queues, one called an AUX queue for storing “completed” IO processes AUX queue has priority over READY queue IO processes only runs for remaining time Characteristics: Performance studies indicate fairer than RR

17 Priority Implementation: Characteristics:
Each process is assigned a priority and the scheduler always selects the highest priority process first Characteristics: High priority processes may run indefinitely, so decrease the priority of these processes at regular intervals Assign high priority to system processes with known characteristics such as being I/O bound

18 Priority Classes Highest Lowest Priority Class 4 Priority Class 3

19 Implementation: Characteristics:
Processes are grouped into priority classes Round Robin is used within a class When selecting process start with the highest class. If the class is empty, use a lower class Characteristics: If priorities are not adjusted from time to time, lower classes may starve to death

20 Shortest-Job-First (SJF)
Sometimes known as Shortest Process Next (SPN) Implementation: The process with the shortest expected execution time is given priority on the processor

21 Characteristics: Nonpremptive Reduces average waiting time over FIFO
Always produces the minimum average turnaround time Must know how long a process will run Possible user abuse Suitable for batch environments. Not useful in a timesharing environment

22 Shortest Remaining Time (SRT)
Preemptive counterpart of SPN Implementation: Process with the smallest estimated run-time to completion is run next A running process may be preempted by a new process with a shorter estimate run-time

23 Characteristics: Still requires estimates of the future Higher overhead than SJF No additional interrupts are generated as in RR Elapsed service times must be recorded

24 Highest Response Ratio Next (HRRN)
How do you get around the problem of Indefinite postponement? Implementation: Once a job gets the CPU it runs it to completion The priority of a job is a function of the job's service time and the time it has been waiting for service priority = (time waiting + service time) / service time

25 Characteristics: Nonpremptive Shorter jobs still get preference over longer jobs However aging ensures long jobs will eventually gain the processor Estimation still involved

26 Feedback Queues There is a network of ready queues
Sometimes called multi-level feedback queues Implementation: There is a network of ready queues A new process enters at the top queue Moves through the queue FIFO

27 I/O processes: If the job requires I/O before quantum expiration it leaves the network and comes back at the same level queue CPU bound processes: If the quantum expires first, the process is placed on the next lower queue This continues until it reaches the bottom queue

28 Dispatching: A process is only placed on the CPU if all higher level queues are empty A running process is preempted by a process arriving in a higher queue Processes from lower level queues receive a larger quantum Modifications: In some systems processes can proceed back up the network by becoming I/O bound

29 A Scheduling Mechanism Should:
Favour short jobs Favour I/O bound jobs to get good I/O device utilisation Determine the nature of a job and schedule accordingly


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