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OPERATING SYSTEMS CONCEPTS - OPERATING SYSTEM DESIGN AND IMPLEMENTATION: Principles Of Operating Systems - Operating System Three Easy Pieces
Operating Systems: Internals and Design Principles, providing a comprehensive, unified introduction to operating systems topics aimed at computer science, computer engineering and electrical engineering majors. Author William Stallings emphasizes both design issues and fundamental principles in contemporary systems, while providing readers with a solid understanding of the key structures and mechanisms of operating systems. He discusses design trade-offs and the practical decisions affecting design, performance and security. The text illustrates and reinforces design concepts, tying them to real-world design choices with case studies in Linux, UNIX, Android and Windows 10. Features. Updated and expanded coverage on Linux and Android to reflect changes in the Linux and Android. The chapter on virtual machines has been completely rewritten to provide better organization and an expanded and more up-to-date treatment. In addition, a new section has been added on the use of containers Coverage of cloud operating systems, including an overview of cloud computing, a discussion of the principles and requirements for a cloud operating system and a discussion of a OpenStack, a popular open-source Cloud OS Discussion of the principles and requirements for an IoT operating system and a discussion of a RIOT, a popular open-source IoT OS Concepts, techniques, and case studies are well integrated so many design and implementation details look obvious to the student. Exceptionally clear explanations of concepts are offered, and coverage of both fundamentals and such cutting-edge material like encryption and security is included. The numerous case studies are tied firmly to real-world experiences with operating systems that students will likely encounter. Updated and expanded coverage on embedded operating systems covering microcontrollers and deeply embedded systems and a popular embedded Linux system, Clinux Table of Contents 1. Computer System Overview 2. Operating System Overview 3. Process Description and Control 4. Threads 5. Concurrency: Mutual Exclusion and Synchronization 6. Concurrency: Deadlock and Starvation 7. Memory Management 8. Virtual Memory 9. Uniprocessor Scheduling 10. Multiprocessor, Multicore and Real-Time Scheduling 11. I/O Management and Disk Scheduling 12. File Management 13. Embedded Operating Systems 14. Virtual Machines 15. Operating System Security 16. Cloud and IoT Operating Systems.