Concepts of Operating Systems
What you'll learn
- Understand the core concepts of Operating Systems
- Implement the Process Scheduling and Deadlock Avoidance Algorithms
- Interpret the types of various domains in OS
- Explain the differences between any two contrasting concepts in OS
- Absolutely No Prerequisites. Everything will be dealt from Scratch!
UPDATE (01-02-2023): ALL THE AUDIO ISSUES HAVE BEEN RECTIFIED
Welcome to my course on 'Concepts of Operating Systems'
The objective of the course is to make the learners understand the core concepts of the Operating Systems and interpret the same.
After completing this course, You'll be able to explain all the concepts that are dealt in this course.
I suggest you to take notes and note down the important points wherever and whenever necessary.
The contents that we'll be discussing in this course are:
Operating systems – types, layers, views, services
Kernel – types, responsibilities, micro kernel, macro kernel
Process – process image, process control block, program to process conversion, process control table, five state model, seven state model, interprocess communication.- shared memory, resource sharing
Critical section – problem and solutions – mutex, semaphores
Classical problems in synchronization - readers’ writers problem, dining philosopher’s problem
Scheduling algorithms – FCFS, RR, SJF, SRJF AND SO ON.
Threads – types, execution
Deadlock – problem and bankers’ algorithm
Memory – types, concept of overlays, logical to physical address conversion, paging technique.
For all the algorithms, an example will be explained that will help you understand the implementation of the algorithms. This is a beginner friendly course which has no prerequisites and it covers a lot of mandatory concepts in OS in a single course. Looking forward to see you there!
Who this course is for:
- Beginner CS, EC Aspirants
- Anyone who wants to understand Operating Systems and its responsibilities
Languages - C, C++, Python, Verilog, System Verilog
Hardware - Digital Logic Design, Computer Architecture, VLSI Design, Analog Electronics, Signal Processing, Embedded Systems
Software - Data Structures & Algorithms, Operating Systems, Database Management Systems, Computer Networks, Machine Learning, Deep Learning.
Tools - Xilinx Vivado, Matlab, Multisim, Altium, Arduino IDE, TinkerCAD, Tanner EDA, Cadence Virtuoso
Boards - Arduino, 8051, TIVA, Raspberry Pi, NodeMCU
Areas of Interest - Artificial Intelligence, Digital Design, Software Engineering, Algorithms