Operating Systems
Operating Systems - Syllabus Book with MCQs and Quizzes 2025 - 2026Β Edition
Developer: StudyZoom
App Size: Varies With Device
Release Date: Oct 6, 2025
Price: Free
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Operating Systems
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π Operating Systems (2025β2026 Edition) is a complete syllabus book designed for BSCS, BSIT, Software Engineering students, researchers, software developers, and competitive programmers who want to gain a strong understanding of modern operating systems. This edition provides MCQs, and quizzes to ensure both academic excellence and practical mastery.
The book covers all the core areas of operating systems including process management, CPU scheduling, synchronization, memory management, storage systems, I/O handling, security, and distributed operating systems. Students will also explore case studies of Windows, Linux, MacOS, and mobile OS along with virtualization and cloud computing concepts.
With a balance of theory and implementation, learners will develop the ability to analyze, design, and simulate real-world OS mechanisms while understanding both classical models and modern trends.
π Chapters & Topics
πΉ Chapter 1: Introduction to Operating Systems
β Definition, history, and goals of OS
β Evolution of multitasking systems
β OS structures (Monolithic, Layered, Microkernel, Hybrid)
β OS services, system calls, APIs
πΉ Chapter 2: Process Management
β Process states and PCB
β Context switching
β Process scheduling (preemptive & non-preemptive)
β Threads and multithreading (user vs kernel)
πΉ Chapter 3: CPU Scheduling
β Scheduling criteria
β FCFS, SJF, Priority, Round Robin
β Multilevel and Multilevel Feedback Queue scheduling
πΉ Chapter 4: Synchronization & Concurrency
β Critical section problem
β Semaphores, mutex, monitors
β Classic problems: Producer-Consumer, Dining Philosophers
β Deadlock conditions, prevention, avoidance, detection
πΉ Chapter 5: Memory Management
β Contiguous allocation & fragmentation
β Paging & segmentation
β Virtual memory & demand paging
β Page replacement algorithms (FIFO, Optimal, LRU, Clock)
β Thrashing
πΉ Chapter 6: Storage and File Systems
β Disk scheduling algorithms (FCFS, SSTF, SCAN, C-SCAN, LOOK)
β RAID levels
β File system concepts, access methods, directory structures
β File allocation methods & protection
πΉ Chapter 7: I/O Systems
β I/O hardware & kernel subsystem
β Polling, interrupts, DMA
β Performance issues and device management
πΉ Chapter 8: Security and Protection
β Protection domains & access control
β Security threats: malware, viruses, worms
β Authentication methods
β Encryption (symmetric & asymmetric), firewalls, IDS
πΉ Chapter 9: Distributed Systems & Advanced Topics
β Distributed file systems & coordination
β Cloud OS and virtualization
β Mobile & real-time operating systems
πΉ Chapter 10: Operating System Case Studies
β UNIX/Linux architecture
β Windows architecture
β Comparison: Linux, Windows, MacOS
β Android & iOS overview
πΉ Chapter 11: Laboratory Work
β Simulation of CPU scheduling & paging algorithms
β Synchronization problem implementations
β File system allocation simulation
β Shell scripting in Linux
π Why Choose this Book?
β Complete OS syllabus with modern perspectives
β Includes MCQs, quizzes, and case studies
β Covers both theory and practical OS implementations
β Ideal for university students, developers, and researchers
β This app is inspired by authors:
Abraham Silberschatz, Andrew S. Tanenbaum, William Stallings, Peter Baer Galvin
π₯ Download Now!
Master the concepts and implementation of operating systems with Operating Systems (2025β2026Β Edition).
The book covers all the core areas of operating systems including process management, CPU scheduling, synchronization, memory management, storage systems, I/O handling, security, and distributed operating systems. Students will also explore case studies of Windows, Linux, MacOS, and mobile OS along with virtualization and cloud computing concepts.
With a balance of theory and implementation, learners will develop the ability to analyze, design, and simulate real-world OS mechanisms while understanding both classical models and modern trends.
π Chapters & Topics
πΉ Chapter 1: Introduction to Operating Systems
β Definition, history, and goals of OS
β Evolution of multitasking systems
β OS structures (Monolithic, Layered, Microkernel, Hybrid)
β OS services, system calls, APIs
πΉ Chapter 2: Process Management
β Process states and PCB
β Context switching
β Process scheduling (preemptive & non-preemptive)
β Threads and multithreading (user vs kernel)
πΉ Chapter 3: CPU Scheduling
β Scheduling criteria
β FCFS, SJF, Priority, Round Robin
β Multilevel and Multilevel Feedback Queue scheduling
πΉ Chapter 4: Synchronization & Concurrency
β Critical section problem
β Semaphores, mutex, monitors
β Classic problems: Producer-Consumer, Dining Philosophers
β Deadlock conditions, prevention, avoidance, detection
πΉ Chapter 5: Memory Management
β Contiguous allocation & fragmentation
β Paging & segmentation
β Virtual memory & demand paging
β Page replacement algorithms (FIFO, Optimal, LRU, Clock)
β Thrashing
πΉ Chapter 6: Storage and File Systems
β Disk scheduling algorithms (FCFS, SSTF, SCAN, C-SCAN, LOOK)
β RAID levels
β File system concepts, access methods, directory structures
β File allocation methods & protection
πΉ Chapter 7: I/O Systems
β I/O hardware & kernel subsystem
β Polling, interrupts, DMA
β Performance issues and device management
πΉ Chapter 8: Security and Protection
β Protection domains & access control
β Security threats: malware, viruses, worms
β Authentication methods
β Encryption (symmetric & asymmetric), firewalls, IDS
πΉ Chapter 9: Distributed Systems & Advanced Topics
β Distributed file systems & coordination
β Cloud OS and virtualization
β Mobile & real-time operating systems
πΉ Chapter 10: Operating System Case Studies
β UNIX/Linux architecture
β Windows architecture
β Comparison: Linux, Windows, MacOS
β Android & iOS overview
πΉ Chapter 11: Laboratory Work
β Simulation of CPU scheduling & paging algorithms
β Synchronization problem implementations
β File system allocation simulation
β Shell scripting in Linux
π Why Choose this Book?
β Complete OS syllabus with modern perspectives
β Includes MCQs, quizzes, and case studies
β Covers both theory and practical OS implementations
β Ideal for university students, developers, and researchers
β This app is inspired by authors:
Abraham Silberschatz, Andrew S. Tanenbaum, William Stallings, Peter Baer Galvin
π₯ Download Now!
Master the concepts and implementation of operating systems with Operating Systems (2025β2026Β Edition).
More Information about: Operating Systems
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Free
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Release Date:
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Content Rating:
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