FIT2070 Semester 2 2016 Assignment 3

Introduction
the marks for your final assessment in this unit. A penalty of 5% per day will apply for
late submission. Refer to the FIT2070 Unit Guide for the policy on extensions or special
case considerations.
Note that this is an individual assignment and must be your own work. Please note
the section on Academic Integrity, Plagiarism, and Collusion at the end this document.
This third assignment consists of three implementation tasks. Each task can be
implemented as a separate program or an individual function to be invoked within a
main program. Any observation on the results of the three tasks should be discussed and
documented. All the program files and documentation should to be zipped while
submitting on Moodle.
Assessment: Each of the three tasks has an equal weightage of marks with 30%
each, and the discussion is worth 10%.
FIT2070 Semester 2 2016 Assignment 3
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Processor Scheduling
Processor scheduling is aimed to assign processes to be executed by the processor (or
processors) in order to achieve certain operating system objectives, such as response
time, turnaround time, throughput, and processor efficiency. Scheduling generally affects
the overall performance of a system as it determines which process should wait and
which process should proceed for execution. Hence, scheduling algorithms are designed
to manage queues of processes with the purpose to minimise the queing delay and to
optimise the system performance.
The aim of this assignment is to implement and simulate the performance of three
different scheduling algorithms and to observe the effects of each of these scheduling
algorithms on the overall system performance.
All the programs should be implemented on the Unix operating system with either C or
Python language.
Running your program with an input file
For each program implemented for the tasks below, it should take an input file as a
command line input. You may name the input file as processes.txt, for example.
Note that the input file should have the following structure: the first column contains the
process ID; the second column indicates the arrival time (in seconds) of each process in
the Ready queue; and the last column refers to the total processing time (in seconds)
required for the corresponding process. Assume that all these processes are processorbound
only (i.e. no I/O operations are involved).
P1 0 3
P2 1 6
P3 4 4
P4 6 2
Task 1: First-Come-First-Served Scheduling
In the first task, you will implement the simplest scheduling algorithm that based on the
first-come-first-served (FCFS) approach. With this strict queuing scheme, the process that
first arrives in the Ready queue is the first to be allocated with the processor for
execution. In other words, when the currently running process completes its execution,
the next process to be selected for execution is the one that has been in the Ready queue
for the longest. This is a non-preemptive algorithm.
Your implementation for the FCFS scheduling should compute and output the
following:
? Turnaround time and waiting time for each process
? Average turnaround time and average waiting time for all the processes
? Overall throughput of the system (i.e. the number of processes completed per
second)
FIT2070 Semester 2 2016 Assignment 3
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Task 2: Round Robin Scheduling
For the second task, you will implement a pre-emptive scheduling algorithm that based on
the Round Robin (RR) approach. Processes in the Ready queue are still scheduled on the
first-come-first-served basis; however, each process is assigned with a fixed time
quantum for execution. Upon the given time quantum elapsed, the currently running
process is preempted by the scheduler and placed to the end of the Ready queue. The
next process in the Ready queue will be selected for execution; and this continues until
all jobs complete its execution. (For the purpose of this assignment, assume that the time
quantum is set to 2 seconds.)
As in Task 1, your implementation for the RR scheduling should compute and output
the following:
? Turnaround time and waiting time for each process
? Average turnaround time and average waiting time for all the processes
? Overall throughput of the system (i.e. the number of processes completed per
second)
Task 3: Shortest Remaining Time Scheduling
The third scheduling algorithm that you will implement is based on the Shortest Remaining
Time (SRT) concept. With this algorithm, the process with the shortest expected
remaining processing time is always chosen by the scheduler. For each new process that
arrives in the Ready queue, it may have a shorter remaining time than the currently
running process. As such, the scheduler may preempt the currently running process and
promote the newly arrived process for execution. (If two processes shared the same
shortest remaining processing time, the FCFS approach is used for breaking the tie.)
Your implementation for the SRT scheduling should again compute and output the
following:
? Turnaround time and waiting time for each process
? Average turnaround time and average waiting time for all the processes
? Overall throughput of the system (i.e. the number of processes completed per
second)
Task 4: Discussion
For this final task, based on the results presented by each scheduling algorithm, discuss
what you may observe on the overall system performance. For example, which algorithm
gives a shortest waiting time or a shortest turnaround time on average, or with a better
system throughput?
Other discussion may include which algorithm is in favour of either the shorter processes
or the longer processes.
FIT2070 Semester 2 2016 Assignment 3
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Important Notes
Commenting your code is essential as part of the assessment criteria. You should also
include comments at the beginning of your program file, which specify your name, your
Student ID, the start date and the last modified date of the program, as well as a highlevel
description of the program. In-line comments within the program are also part of
the required documentation.
Submission
There is NO hard copy submission required for this assignment. You are required to
submit your assignment as a .zip file named with your Student ID. For example, if your
Student ID were 12345678 then you would submit a file named 12345678_A3.zip. Marks
will be deducted if this requirement is not strictly complied with.
Your submission is via the assignment submission link on the FIT2070 Moodle website
by the deadline specified in this document, i.e. 11:55PM on Sunday 23rdOctober 2016.
Deliverables
Your submission should contain the following:
? A completed Assignment Cover Sheet. This document is available for download
from the Assignment Section of the FIT2070 Moodle website.
? A documentation in MS Word or PDF format, stating:
1. Clear and complete instructions on how to install and run your programs.
2. Discussion on the system performance with different scheduling algorithms
(i.e. Task 4).
? Electronic copies of ALL your files that are needed to run your programs.
Marks will be deducted for any of these requirements that are not strictly complied with.
Note that your programs must run in the University?s student labs in which the practical
classes for FIT2070 are held in this semester. Any submission that does not run
accordingly will receive no marks.
Marking Criteria
The assessment of this assignment will be based on the following marking criteria. The
same marking criteria will be applied on each implementation task (Task 1 to Task 3).
? 60% Working of the program;
? 20% Code architecture (algorithms, use of procedures and libraries, etc.);
? 10% Coding style (clarity, variable names, etc.);
? 10% Documentation (both program and user documentation).
FIT2070 Semester 2 2016 Assignment 3
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Academic Integrity, Plagiarism, and Collusion
Students should consult the University?s policies on this matter at:
http://www.monash.edu.au/students/policies/academic-integrity.html
The following excerpts are from the aforementioned URL:
Plagiarism
Plagiarism means to take and use another person’s ideas and or manner of expressing
them and to pass them off as your own by failing to give appropriate acknowledgment.
This includes material sourced from the Internet, staff, other students, and from
published and unpublished works.
Collusion
Collusion means unauthorised collaboration on assessable work (written, oral or
practical) with other people. This occurs when you present group work as your own or as
the work of another person. Collusion may be with another Monash student or with
people or students external to the University. This applies to work assessed by Monash
or another university.
It is your responsibility to make yourself familiar with the University?s policies and
procedures in the event of suspected breaches of academic integrity.

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