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Course Detail

Course Description

CourseCodeSemesterT+P (Hour)CreditECTS
OPERATING SYSTEMS-Fall Semester3+248
Course Program
Prerequisites Courses
Recommended Elective Courses
Language of CourseEnglish
Course LevelFirst Cycle (Bachelor's Degree)
Course TypeRequired
Course CoordinatorProf.Dr. Selim AKYOKUŞ
Name of Lecturer(s)Prof.Dr. Tansel ÖZYER, Prof.Dr. Selim AKYOKUŞ
Assistant(s)
AimThe objective of this course is to introduce and discuss the concepts, structures and mechanisms of modern operating systems. Topics include an overview of operating system fundamentals, process management, multi-threading, concurrency issues, memory management, virtual memory, scheduling techniques, I/O management, file management, security issues, virtual machines, cloud systems, mobile and embedded operating systems. The course focus will be on operating systems internals rather than the operating systems interface.
Course ContentThis course contains; Introduction and Computer System Overview,Operating Systems overview. OS Services.,Process Description and Control,Threads,Concurrency: Mutual Exclusion and Synchronization,Concurrency: Deadlock and Starvation,Memory Management,Virtual Memory,Uniprocessor and Multiprocessor Scheduling,I/O Management, Disk Scheduling and File Management,Operating System Security ,Virtual Machines and Cloud Operating Systems,Sanal Makineler ve Bulut İşletim Sistemleri,Mobile, Embedded and IoT Operating Systems.
Dersin Öğrenme KazanımlarıTeaching MethodsAssessment Methods
1. Understand the concepts, structures, and mechanisms of modern operating systems. 12, 13, 16, 21, 6, 9A, E, F, G
2. Understand concurrency issues, mutual exclusion, synchronization, deadlocks, deadlock prevention, avoidance, and the use of semaphores. 12, 13, 16, 21, 6, 9A, E, F, G
3. Understand memory management, virtual memory, swapping, paging algorithms, segmentation.12, 13, 16, 21, 6, 9A, E, F, G
4. Understand input/output and file management systems.12, 13, 16, 21, 6, 9A, E, F, G
5. Learn current directions and developments of operating systems on the use of virtual machines, cloud systems, mobile and embedded systems.12, 13, 16, 21, 6, 9A, E, F, G
6. Learn specific design decisions and functionality of various OS like Unix , Linux, Windows and Android operating systems. 12, 13, 16, 21, 6, 9A, E, F, G
Teaching Methods:12: Problem Solving Method, 13: Case Study Method, 16: Question - Answer Technique, 21: Simulation Technique, 6: Experiential Learning, 9: Lecture Method
Assessment Methods:A: Traditional Written Exam, E: Homework, F: Project Task, G: Quiz

Course Outline

OrderSubjectsPreliminary Work
1Introduction and Computer System OverviewTextbook chapter 1
2Operating Systems overview. OS Services.Textbook chapter 2
3Process Description and ControlTextbook chapters 3
4ThreadsTextbook chapter 4
5Concurrency: Mutual Exclusion and SynchronizationTextbook chapter 5
6Concurrency: Deadlock and StarvationTextbook chapter 6
7Memory ManagementTextbook chapters 7
8Virtual MemoryTextbook chapter 8
9Uniprocessor and Multiprocessor SchedulingTextbook chapter 9 and 10
10I/O Management, Disk Scheduling and File ManagementTextbook chapter 11 and 12
11Operating System Security Textbook Chapter 15
12Virtual Machines and Cloud Operating SystemsTextbook chapters 14
13Sanal Makineler ve Bulut İşletim SistemleriTextbook chapter 14
14Mobile, Embedded and IoT Operating SystemsTextbook Chapter 13 and 16
Resources
- William Stallings, Operating Systems, Internals and Design Principles, 9th Edition, Prentice Hall, 2017. - A. Silberschatz, P. B. Galvin and G. Gagne, Operating System Concepts, 10th Edition, John Wiley & Sons, Inc., 2018.
- A. Tannenbaum, Modern Operating Systems, 4th Edition, Prentice Hall, 2014. - T. Anderson and M. Dahlin, Operating Systems: Principles and Practice, 2nd Edition, Recursive Books Ltd. 2014.

Course Contribution to Program Qualifications

Course Contribution to Program Qualifications
NoProgram QualificationContribution Level
12345
1
1. An ability to apply knowledge of mathematics, science, and engineering
X
2
2. An ability to identify, formulate, and solve engineering problems
X
3
3. An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
X
4
4. An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice
X
5
5. An ability to design and conduct experiments, as well as to analyze and interpret data
X
6
6. An ability to function on multidisciplinary teams
X
7
7. An ability to communicate effectively
X
8
8. A recognition of the need for, and an ability to engage in life-long learning
X
9
9. An understanding of professional and ethical responsibility
X
10
10. A knowledge of contemporary issues
X
11
11. The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context
X

Assessment Methods

Contribution LevelAbsolute Evaluation
Rate of Midterm Exam to Success 30
Rate of Final Exam to Success 70
Total 100
ECTS / Workload Table
ActivitiesNumber ofDuration(Hour)Total Workload(Hour)
Course Hours14342
Guided Problem Solving14228
Resolution of Homework Problems and Submission as a Report5840
Term Project000
Presentation of Project / Seminar21632
Quiz22040
Midterm Exam12525
General Exam13030
Performance Task, Maintenance Plan000
Total Workload(Hour)237
Dersin AKTS Kredisi = Toplam İş Yükü (Saat)/30*=(237/30)8
ECTS of the course: 30 hours of work is counted as 1 ECTS credit.

Detail Informations of the Course

Course Description

CourseCodeSemesterT+P (Hour)CreditECTS
OPERATING SYSTEMS-Fall Semester3+248
Course Program
Prerequisites Courses
Recommended Elective Courses
Language of CourseEnglish
Course LevelFirst Cycle (Bachelor's Degree)
Course TypeRequired
Course CoordinatorProf.Dr. Selim AKYOKUŞ
Name of Lecturer(s)Prof.Dr. Tansel ÖZYER, Prof.Dr. Selim AKYOKUŞ
Assistant(s)
AimThe objective of this course is to introduce and discuss the concepts, structures and mechanisms of modern operating systems. Topics include an overview of operating system fundamentals, process management, multi-threading, concurrency issues, memory management, virtual memory, scheduling techniques, I/O management, file management, security issues, virtual machines, cloud systems, mobile and embedded operating systems. The course focus will be on operating systems internals rather than the operating systems interface.
Course ContentThis course contains; Introduction and Computer System Overview,Operating Systems overview. OS Services.,Process Description and Control,Threads,Concurrency: Mutual Exclusion and Synchronization,Concurrency: Deadlock and Starvation,Memory Management,Virtual Memory,Uniprocessor and Multiprocessor Scheduling,I/O Management, Disk Scheduling and File Management,Operating System Security ,Virtual Machines and Cloud Operating Systems,Sanal Makineler ve Bulut İşletim Sistemleri,Mobile, Embedded and IoT Operating Systems.
Dersin Öğrenme KazanımlarıTeaching MethodsAssessment Methods
1. Understand the concepts, structures, and mechanisms of modern operating systems. 12, 13, 16, 21, 6, 9A, E, F, G
2. Understand concurrency issues, mutual exclusion, synchronization, deadlocks, deadlock prevention, avoidance, and the use of semaphores. 12, 13, 16, 21, 6, 9A, E, F, G
3. Understand memory management, virtual memory, swapping, paging algorithms, segmentation.12, 13, 16, 21, 6, 9A, E, F, G
4. Understand input/output and file management systems.12, 13, 16, 21, 6, 9A, E, F, G
5. Learn current directions and developments of operating systems on the use of virtual machines, cloud systems, mobile and embedded systems.12, 13, 16, 21, 6, 9A, E, F, G
6. Learn specific design decisions and functionality of various OS like Unix , Linux, Windows and Android operating systems. 12, 13, 16, 21, 6, 9A, E, F, G
Teaching Methods:12: Problem Solving Method, 13: Case Study Method, 16: Question - Answer Technique, 21: Simulation Technique, 6: Experiential Learning, 9: Lecture Method
Assessment Methods:A: Traditional Written Exam, E: Homework, F: Project Task, G: Quiz

Course Outline

OrderSubjectsPreliminary Work
1Introduction and Computer System OverviewTextbook chapter 1
2Operating Systems overview. OS Services.Textbook chapter 2
3Process Description and ControlTextbook chapters 3
4ThreadsTextbook chapter 4
5Concurrency: Mutual Exclusion and SynchronizationTextbook chapter 5
6Concurrency: Deadlock and StarvationTextbook chapter 6
7Memory ManagementTextbook chapters 7
8Virtual MemoryTextbook chapter 8
9Uniprocessor and Multiprocessor SchedulingTextbook chapter 9 and 10
10I/O Management, Disk Scheduling and File ManagementTextbook chapter 11 and 12
11Operating System Security Textbook Chapter 15
12Virtual Machines and Cloud Operating SystemsTextbook chapters 14
13Sanal Makineler ve Bulut İşletim SistemleriTextbook chapter 14
14Mobile, Embedded and IoT Operating SystemsTextbook Chapter 13 and 16
Resources
- William Stallings, Operating Systems, Internals and Design Principles, 9th Edition, Prentice Hall, 2017. - A. Silberschatz, P. B. Galvin and G. Gagne, Operating System Concepts, 10th Edition, John Wiley & Sons, Inc., 2018.
- A. Tannenbaum, Modern Operating Systems, 4th Edition, Prentice Hall, 2014. - T. Anderson and M. Dahlin, Operating Systems: Principles and Practice, 2nd Edition, Recursive Books Ltd. 2014.

Course Contribution to Program Qualifications

Course Contribution to Program Qualifications
NoProgram QualificationContribution Level
12345
1
1. An ability to apply knowledge of mathematics, science, and engineering
X
2
2. An ability to identify, formulate, and solve engineering problems
X
3
3. An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
X
4
4. An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice
X
5
5. An ability to design and conduct experiments, as well as to analyze and interpret data
X
6
6. An ability to function on multidisciplinary teams
X
7
7. An ability to communicate effectively
X
8
8. A recognition of the need for, and an ability to engage in life-long learning
X
9
9. An understanding of professional and ethical responsibility
X
10
10. A knowledge of contemporary issues
X
11
11. The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context
X

Assessment Methods

Contribution LevelAbsolute Evaluation
Rate of Midterm Exam to Success 30
Rate of Final Exam to Success 70
Total 100

Numerical Data

Student Success

Ekleme Tarihi: 09/10/2023 - 10:50Son Güncelleme Tarihi: 09/10/2023 - 10:51