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L-2.2: What is Arrival, Burst, Completion, Turnaround, Waiting and Response time in CPU Scheduling
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Operating System
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- 1 Lec-0: Operating System Syllabus Discussion for all College/University & Compititve exams (GATE,NET)
- 2 L-1.1: Introduction to Operating System and its Functions with English Subtitles
- 3 L-1.2: Batch Operating System | Types of Operating System
- 4 L-1.3: Multiprogramming and Multitasking Operating System in Hindi with real life examples
- 5 L-1.4: Types of OS(Real Time OS, Distributed, Clustered & Embedded OS)
- 6 L-1.5: Process States in Operating System| Schedulers(Long term,Short term,Medium term)
- 7 L-1.6: Imp Linux Commands(Operating System) | Must Watch for College/University & Competitive exams
- 8 L-1.7: System Calls in Operating system and its types in Hindi
- 9 L-1.8: Fork System call with Example | Fork() system call questions
- 10 L-1.9: Questions on Fork System Call With Explanation | Operating System
- 11 L-1.10: User mode and Kernel mode in operating system in hindi
- 12 L-1.11: Process Vs Threads in Operating System
- 13 L-1.12: User Level Vs Kernel Level Thread in Operating System | All Imp Points
- 14 L-2.1: Process Scheduling Algorithms (Preemption Vs Non-Preemption) | CPU Scheduling in OS
- 15 L-2.2: What is Arrival, Burst, Completion, Turnaround, Waiting and Response time in CPU Scheduling
- 16 L-2.3: First Come First Serve(FCFS) CPU Scheduling Algorithm with Example
- 17 L-2.4: Shortest Job First(SJF) Scheduling Algorithm with Example | Operating System
- 18 L-2.5: Shortest Remaining Time First (SJF With Preemption) Scheduling Algorithm with Example | OS
- 19 L-2.6: Question on Shortest Job First(SJF) with Preemption Scheduling Algorithm
- 20 L-2.7: Round Robin(RR) CPU Scheduling Algorithm with Example
- 21 L-2.8: Pre-emptive Priority Scheduling Algorithm with Example | Operating System
- 22 L-2.9: Example of Mix Burst Time(CPU & I/O both) in CPU Scheduling | Tough Question
- 23 L-2.10: Multi Level Queue Scheduling | Operating System
- 24 L-2.11: Multilevel Feedback Queue Scheduling | Operating System
- 25 L-3.1: Process Synchronization | Process Types | Race Condition | Operating System-1
- 26 L-3.2: Producer Consumer Problem | Process Synchronization Problem in Operating System
- 27 L-3.3: Printer-Spooler Problem | Process Synchronization Problem in Operating System
- 28 L-3.4: Critical Section Problem | Mutual Exclusion, Progress and Bounded Waiting | Operating System
- 29 L-3.5: LOCK Variable in OS | Process Synchronization
- 30 L-3.6: Test and Set Instruction in OS | Process Synchronization
- 31 L-3.7: Turn Variable | Strict Alteration Method | Process Synchronization
- 32 L-3.8: Semaphores | Wait, Signal Operation | Counting Semaphore | Example| Operating system
- 33 L-3.9: What is Binary Semaphore | Easiest Explanation | Operating system
- 34 L-3.10: Practice Question on Binary Semaphore in Operating System
- 35 L-3.11: Solution of Producer Consumer Problem using Semaphore | Operating System
- 36 L-3.12: Solution of Readers-writers Problem using Binary semaphore
- 37 L-3.13: Dining philosophers Problem and Solution using Semaphore in Operating System
- 38 L-4.1: DEADLOCK concept | Example | Necessary condition | Operating System
- 39 L-4.2: Resource Allocation Graph in Deadlock | Single Instance with example | Operating System
- 40 L-4.3: Multi-Instance Resource Allocation Graph with Example | Operating System
- 41 L-4.4: Deadlock Handling Methods and Deadlock Prevention | Operating System
- 42 L-4.5: Deadlock Avoidance Banker's Algorithm with Example |With English Subtitles
- 43 L-4.6: GATE 2018 Question on Banker's Algorithm | Deadlock avoidance | Operating Sytem
- 44 L-4.7: Question Explaination on Deadlock | Operating System
- 45 L-4.8: GATE 2018 Question Explaination on deadlock | Operating system
- 46 L-5.1: Memory Management and Degree of Multiprogramming | Operating System
- 47 L-5.2: Memory management Techniques | Contigious and non-Contigious | Operating System
- 48 L-5.3: Internal Fragmentation | Fixed size Partitioning | Memory management | Operating System
- 49 L-5.4: Variable size Partitioning | Memory management | Operating System
- 50 L-5.5: First Fit, Next Fit, Best Fit, Worst fit Memory Allocation | Memory Management | OS
- 51 L-5.6: GATE Question Solved on First Fit,Best Fit and Worst fit Memory Allocation | Operating System
- 52 L-5.7: GATE 2007 Question Solved on First Fit,Best Fit and Worst fit with timeline |Operating System
- 53 L-5.8: Need of Paging | Memory Management | Operating System
- 54 L-5.9: What is Paging | Memory management | Operating System
- 55 L-5.10: Question Explanation on Logical address and Physical address space | Operating System
- 56 L-5.11: Question Explanation on Paging | Memory Management | Operating System
- 57 L-5.12: Page Table Entries | Format of Page Table | Operating System
- 58 L-5.13: 2-Level Paging in Operating System | Multilevel Paging
- 59 L-5.14: Inverted paging | Memory Management | Operating System
- 60 L-5.15: Paging Questions in Operating System(OS) | Imp Question for all competitive exams
- 61 L-5.16: What is Thrashing | Operating System
- 62 L-5.17: Segmentation Vs Paging | Segmentation Working | Operating system
- 63 L-5.18: Overlay | Memory Management | Operating system
- 64 L-5.19: Virtual Memory | Page fault | Significance of virtual memory | Operating System
- 65 L-5.20: Translation Lookaside Buffer(TLB) in Operating System in Hindi
- 66 L-5.21: Numerical on Translation Lookaside Buffer (TLB) | Operating System
- 67 L-5.22: Page Replacement Introduction | FIFO Page Replacement algorithm | Operating System
- 68 L-5.23: Belady's Anomaly in FIFO page Replacement with example | Operating System
- 69 L-5.24: Optimal Page Replacement algorithm | Operating System
- 70 L-5.25: Least Recently Used Page Replacement Algorithm | Operating System
- 71 L-5.26: Most recently used page replacement algorithm | Operating System
- 72 L-6.1: Hard Disk Architecture in Operating System in Hindi
- 73 L-6.2: Disk Access Time with Example | Seek Time, Rotational Time and Transfer Time
- 74 L-6.3: Disk Scheduling Algorithm | Operating System
- 75 L-6.4: FCFS in Disk scheduling with Example | Operating System
- 76 L-6.5: SSTF in Disk scheduling with Example | Operating System
- 77 L-6.6: SCAN Algorithm in Disk scheduling with Example | Operating System
- 78 L-6.7: LOOK Algorithm in Disk scheduling with Example | Operating System
- 79 L-6.8: C-SCAN Algorithm in Disk scheduling with Example | Operating System
- 80 L-6.9: C-LOOK Algorithm in Disk scheduling with Example | Operating System
- 81 L-6.10: Imp Qus. on Operating System | Must Watch | NTA NET June 2021
- 82 L-7.1: File System in Operating System | Windows, Linux, Unix, Android etc.
- 83 L-7.2: File Attributes & Operations in Operating System
- 84 L-7.3: Allocation Methods in operating system in hindi | Contiguous vs NonContiguous
- 85 L-7.4: Contiguous Allocation in Operating system | Advantages & Disadvantages
- 86 L-7.5: Linked List allocation in file allocation with example | Operating system
- 87 L-7.6: Indexed File Allocation in Operating System
- 88 L-7.7: Unix Inode Structure with Numerical Example | OS
- 89 Lec-8: Protection & Security in Operating system | Full OS playlist
- 90 TLBs Toughest Question asked in GATE exam | Operating System