Operating System Concepts
Published 9/2023
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.93 GB | Duration: 5h 18m
Published 9/2023
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.93 GB | Duration: 5h 18m
CPU Scheduling, Memory Management and Deadlocks
What you'll learn
You will become familiar with the core concepts of Operating Systems
Understand how Operating Systems work
Understand how a process is created
Understand the various scheduling algorithms we have in Operating Systems
Understand memory allocation strategies used by operating systems
Requirements
You will Learn everything you need to know.
Description
This course teaches the students standard operating systems structures. The students are exposed to topics such as concurrency and real-time considerations. The course discusses how common operating systems such as Unix and Windows are designed and implemented. This course spans the following topics: processes, threads, inter-process communication, synchronization (critical regions, semaphores, mutex, deadlocks), scheduling, memory management, i/o systems, and file systems.This course covers the following topics in detail: Operating system definition, simple batch systems, multiprogramming, time-sharing, personal computer systems, parallel systems, introduction to process, process scheduling, operations on processes, cooperating processes, interprocess communications, interrupts, process synchronization, critical-section problem, atomic instructions, semaphores, synchronization problems, CPU scheduling, scheduling criteria and algorithms, multiple processes and real-time scheduling, algorithm evaluation, deadlocks, characterization and handling of deadlocks, deadlock prevention avoidance and detection, deadlock recovery, memory management and virtual memory, address spaces, swapping, memory allocation, paging, segmentation.After completing this course, the studentBe able to explain what an operating system and the role is it different parts of the system play.Be able to explain the structure of operating systems, applications, and the relationship between them.Be able to explain and make use of the services provided by operating systemsExposure to details of major OS conceptsWrite programs (Implement) various parts of operating systems.
Overview
Section 1: Introduction
Lecture 1 Introduction to Operating Systems
Section 2: Fundamental of Computers and Operating Systems
Lecture 2 Computer System Structures
Lecture 3 Operating System Structures
Section 3: Processes and CPU Scheduling
Lecture 4 Processes
Lecture 5 Processes - long and short schedulers, context switch, process creation and term
Lecture 6 Round Robin Algorithm with Examples
Lecture 7 Cooperative Processes
Lecture 8 CPU Scheduling
Lecture 9 First Come First Served (FCFS) and Shortest Job First (SJF)
Lecture 10 Round Robin CPU Scheduling
Lecture 11 Round Robin Examples
Lecture 12 Priority Scheduling
Lecture 13 Priority Scheduling Examples
Section 4: Process Synchronization
Lecture 14 Process Synchronization - Peterson and Bakery Algorithms
Lecture 15 Synchronization Hardware
Lecture 16 Semaphores
Lecture 17 Classical problems of synchronization
Section 5: Memory Managment
Lecture 18 Memory Management Part1
Lecture 19 Swappig
Lecture 20 Memory Management - Paging
Lecture 21 Page Replacement Algorithms
Section 6: Deadlocks
Lecture 22 Deadlocks - Resource Allocation Graph
Lecture 23 Deadlocks Avoidance Algorithms
Lecture 24 Safety Algorithm Example
Lecture 25 Deadlock Detection Algorithm Example
Lecture 26 Deadlock-Quiz-solution
Computer Engineering and Computer Science Students,Anybody who wants to pursue a career in Computer Science,If you are preparing for exams like GATE , PGEE , BITS HD , ISRO ,..etc