Udemy - Operating systems concepts-1

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Udemy - Operating systems concepts-1 (Size: 1.8 GB)
  1. Combining scheduling algorithms.mp4 39.7 MB
  1. Combining scheduling algorithms.srt 6.7 KB
  1. FCFS scheduling.mp4 25.7 MB
  1. FCFS scheduling.srt 6.1 KB
  1. Interprocess communication (IPC).mp4 22.6 MB
  1. Interprocess communication (IPC).srt 3.6 KB
  1. Life cycle of program creation.mp4 12.4 MB
  1. Life cycle of program creation.srt 4 KB
  1. Programs with multiple processes.mp4 36 MB
  1. Programs with multiple processes.srt 6.3 KB
  1. Protection.mp4 31.6 MB
  1. Protection.srt 6.6 KB
  1. What is an operating system (OS).mp4 22.8 MB
  1. What is an operating system (OS).srt 4.6 KB
  1. When do processes relinquish CPU.mp4 19.5 MB
  1. When do processes relinquish CPU.srt 3.6 KB
  10. Activity---scheduling algorithms.mp4 45.2 MB
  10. Activity---scheduling algorithms.srt 10.1 KB
  10. OS user interface.mp4 17.8 MB
  10. OS user interface.srt 4.3 KB
  10. Parameter passing to system calls.mp4 30.4 MB
  10. Parameter passing to system calls.srt 6.5 KB
  10. Quiz 4.html 204.8 B
  10. Quiz 7.html 204.8 B
  10.1 ws1.pdf 157.8 KB
  11. OS interfaces.mp4 21.8 MB
  11. OS interfaces.srt 4.7 KB
  11. Preemptive priority scheduling.mp4 55.6 MB
  11. Preemptive priority scheduling.srt 10 KB
  11. Quiz 2.html 204.8 B
  12. Preemptive priority scheduling advantages and disadvantages.mp4 4 MB
  12. Preemptive priority scheduling advantages and disadvantages.srt 921.6 B
  12. Quiz 1.html 204.8 B
  13. Round robin (RR) scheduling.mp4 25 MB
  13. Round robin (RR) scheduling.srt 4.2 KB
  14. RR scheduling example.mp4 38 MB
  14. RR scheduling example.srt 7.9 KB
  15. RR scheduling advantages and disadvantages.mp4 25.3 MB
  15. RR scheduling advantages and disadvantages.srt 4.9 KB
  16. Quiz 5.html 204.8 B
  2. Creating multiple processes in Linux.mp4 12.6 MB
  2. Creating multiple processes in Linux.srt 2.3 KB
  2. FCFS scheduling example.mp4 17 MB
  2. FCFS scheduling example.srt 4.4 KB
  2. Kernel mode and user mode.mp4 30.4 MB
  2. Kernel mode and user mode.srt 5.4 KB
  2. Linux CPU scheduling algorithm.mp4 48.1 MB
  2. Linux CPU scheduling algorithm.srt 8.1 KB
  2. Memory footprint of a program.mp4 11.9 MB
  2. Memory footprint of a program.srt 2.1 KB
  2. OS traditional view, an illusionist, a government..mp4 37.7 MB
  2. OS traditional view, an illusionist, a government..srt 6.7 KB
  2. Process scheduling queuing diagram.mp4 21.8 MB
  2. Process scheduling queuing diagram.srt 4.9 KB
  2. Shared memory for IPC.mp4 22.7 MB
  2. Shared memory for IPC.srt 3.9 KB
  3. Context switching.mp4 39 MB
  3. Context switching.srt 7.9 KB
  3. FCFS advantages and disadvantages.mp4 23.8 MB
  3. FCFS advantages and disadvantages.srt 4.6 KB
  3. Fork system call 1.mp4 21.3 MB
  3. Fork system call 1.srt 3.8 KB
  3. Linux CPU scheduling example.mp4 14.4 MB
  3. Linux CPU scheduling example.srt 2.5 KB
  3. Message passing for IPC.mp4 30.7 MB
  3. Message passing for IPC.srt 5.4 KB
  3. OS salient features..mp4 47.2 MB
  3. OS salient features..srt 7.3 KB
  3. Processes.mp4 16.1 MB
  3. Processes.srt 3 KB
  3. System calls.mp4 49.4 MB
  3. System calls.srt 7.5 KB
  4. CPU scheduling basics.mp4 22.1 MB
  4. CPU scheduling basics.srt 4.1 KB
  4. Communication protocols.mp4 17.1 MB
  4. Communication protocols.srt 3.4 KB
  4. Computer system structure.mp4 10 MB
  4. Computer system structure.srt 1.9 KB
  4. Example system calls.mp4 20.5 MB
  4. Example system calls.srt 3.6 KB
  4. Fork system call 2.mp4 40.8 MB
  4. Fork system call 2.srt 7.3 KB
  4. Multiprogramming and multitasking.mp4 36.4 MB
  4. Multiprogramming and multitasking.srt 6.7 KB
  4. Quiz 6.html 204.8 B
  4. Shortest job first (SJF) scheduling.mp4 44.3 MB
  4. Shortest job first (SJF) scheduling.srt 9.6 KB
  5. CPU-bound and IO-bound processes.mp4 28.7 MB
  5. CPU-bound and IO-bound processes.srt 4.3 KB
  5. Modern OS functionalities.mp4 50.9 MB
  5. Modern OS functionalities.srt 7.9 KB
  5. Parent and child processes in Linux.mp4 20.2 MB
  5. Parent and child processes in Linux.srt 3.7 KB
  5. Quiz 8.html 204.8 B
  5. SJF advantages and disadvantages.mp4 19.4 MB
  5. SJF advantages and disadvantages.srt 3.9 KB
  5. Scheduler and process scheduling.mp4 21.8 MB
  5. Scheduler and process scheduling.srt 4.3 KB
  5. Types of system calls.mp4 17.4 MB
  5. Types of system calls.srt 4 KB
  6. Fork example-1.mp4 15.9 MB
  6. Fork example-1.srt 3.4 KB
  6. Non-preemptive priority scheduling.mp4 25.4 MB
  6. Non-preemptive priority scheduling.srt 6.4 KB
  6. OS principles.mp4 40.8 MB
  6. OS principles.srt 6.8 KB
  6. Process states.mp4 30 MB
  6. Process states.srt 6 KB
  6. Traps.mp4 49.2 MB
  6. Traps.srt 9.5 KB
  6. When would CPU scheduler run.mp4 28.8 MB
  6. When would CPU scheduler run.srt 5.2 KB
  7. Application programming interface (API).mp4 27.9 MB
  7. Application programming interface (API).srt 4.6 KB
  7. Fork example-2.mp4 18 MB
  7. Fork example-2.srt 3.7 KB
  7. Layered computing systems.mp4 28 MB
  7. Layered computing systems.srt 4.7 KB
  7. Process control block (PCB).mp4 30 MB
  7. Process control block (PCB).srt 5.2 KB
  7. Scheduling performance metrics.mp4 27.9 MB
  7. Scheduling performance metrics.srt 4.3 KB
  7. Starvation.mp4 18.8 MB
  7. Starvation.srt 3.6 KB
  8. Creating a process.mp4 8.9 MB
  8. Creating a process.srt 1.8 KB
  8. Fork example-3.mp4 31.5 MB
  8. Fork example-3.srt 5.5 KB
  8. How APIs invoke system calls.mp4 18.7 MB
  8. How APIs invoke system calls.srt 4.2 KB
  8. Layered design exceptions.mp4 41.7 MB
  8. Layered design exceptions.srt 7.9 KB
  8. Shortest remaining time first (SRTF) scheduling.mp4 45.7 MB
  8. Shortest remaining time first (SRTF) scheduling.srt 9.1 KB
  8. Turnaround time and waiting time.mp4 17.6 MB
  8. Turnaround time and waiting time.srt 3.2 KB
  9. Activity---fork.mp4 11.1 MB
  9. Activity---fork.srt 2.3 KB
  9. CPU scheduling algorithms types and goals.mp4 32.1 MB
  9. CPU scheduling algorithms types and goals.srt 5.7 KB
  9. Performance optimization in computing systems.mp4 26 MB
  9. Performance optimization in computing systems.srt 5 KB
  9. Quiz 3.html 204.8 B
  9. SRTF advantages and disadvantages.mp4 11.1 MB
  9. SRTF advantages and disadvantages.srt 1.8 KB
  9. System call implementation.mp4 26.5 MB
  9. System call implementation.srt 5.2 KB
  9.1 ws2.pdf 102.5 KB
  Bonus Resources.txt 409.6 B
  Get Bonus Downloads Here.url 204.8 B
  ▲ 150 total files

Description


Operating systems concepts-1
https://DevCourseWeb.com

Published 08/2022
Genre: eLearning | MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.8 GB | Duration: 69 lectures • 4h 26m

Master the basics of Operating Systems, system calls, processes, CPU scheduling from scratch.

What you'll learn
What is an operating system (OS)?
Modern OS functionalities.
Layered design of computing systems.
OS user interface.
What is Protection in OS?
What are kernel and user modes? Why are they needed?
What are system calls? Why are they needed?
What are traps?
What is an application programming interface (API)?
How APIs invoke system calls?
How are system calls implemented?
How are parameters passed to system calls?
Life cycle of program creation
Memory footprint of a program.
What is a process?
What is multiprogramming and multitasking?
CPU Scheduler and process scheduling.
What are the various states that a process goes through?
What is a process control block (PCB)?
When do processes relinquish CPU?
What is a context switch?
CPU scheduling basics and performance metrics.
What are CPU-bound and IO-bound processes?
When would CPU scheduler run?
What is turnaround time and waiting time?
FCFS scheduling.
Shortest job first (SJF) scheduling.
Nonpreemptive priority scheduling.
What is starvation?
Shortest remaining time first (SRTF) scheduling.
Preemptive priority scheduling.
Round robin (RR) scheduling.
Combining scheduling algorithms.
Linux CPU scheduling algorithm.
Programs with multiple processes.
Creating multiple processes in Linux.
Fork system call with illustrative examples.
Interprocess communication (IPC).
Shared memory for IPC.
Message passing for IPC.

Requirements
No previous knowledge about operating systems needed. Everything you need to know about the topics will be covered.
Description
Ace operating systems (OS) principles, system calls, OS protection, processes, CPU scheduling, CPU scheduling algorithms, interprocess communication questions in competitive exams, job interviews, and OS course exams.

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