Computer Organization and Architecture

Computer Organization and Architecture

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L-4.8: Control Hazards in Pipelining | Types of Hazards with Example in Hindi

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L-4.8: Control Hazards in Pipelining | Types of Hazards with Example in Hindi

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Computer Organization and Architecture

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  1. 1 L-1.1: Computer Organization and Architecture Syllabus Discussion for GATE and UGC NTA NET
  2. 2 L-1.2: Von Neumann's Architecture | Stored Memory Concept in Computer Architecture
  3. 3 L-1.3:Various General Purpose Registers in Computer Organization and Architecture
  4. 4 L-1.4:Types of Buses (Address, Data and Control) in Computer Organization and Architecture
  5. 5 L-1.5: Common bus system using multiplexer | Computer organization and Architecture
  6. 6 L-1.6: Common Bus system| How basic computer works
  7. 7 L-1.7: Types of Instructions in General Purpose Computer | Computer Organization and Architecture
  8. 8 L-1.8: Data Transfer Instructions in Computer Organisation and Architecture
  9. 9 L-1.9: Arithmetic Instructions(Data Manipulation) in Computer Organisation and Architecture
  10. 10 L-1.10: Logical Instructions(Data Manipulation) in Computer Organisation and Architecture
  11. 11 L-1.11: Shift Instructions(Data Manipulation) in Computer Organisation and Architecture
  12. 12 L-1.12: Program Control Instructions(Types of Control Instructions) | Computer Organization
  13. 13 L-1.13: What is Instruction Format | Understand Computer Organisation with Simple Story
  14. 14 L-1.14: Question on Instruction Format | Computer Organization | UGC NTA NET June 2021
  15. 15 L-1.15: Single Accumulator CPU Organisation | Single Address Instructions in Computer Organisation
  16. 16 L-1.16: General Register CPU Organisation | Two and Three Address Instructions | COA
  17. 17 L-1.17: Register Stack Organisation | Zero Address Instructions | COA
  18. 18 L-1.18:Memory Stack Organisation | Memory stack Vs Register stack | COA
  19. 19 L-2.1: What is Addressing Mode | Various Types of Addressing Modes | COA
  20. 20 L-2.2: Implied Addressing Mode | Computer Organisation and Architecture
  21. 21 L-2.3: Immediate Addressing Mode | Computer Organisation and Architecture
  22. 22 L-2.4: Register Mode | Addressing Mode | Computer Organisation and Architecture
  23. 23 L-2.5: Register Indirect Mode | Addressing Modes | Computer Organisation and Architecture
  24. 24 L-2.6: Auto Increment and Decrement Addressing Modes | Computer Organisation and Architecture
  25. 25 L-2.7: Direct Addressing Mode || Computer Organisation and Architecture
  26. 26 L-2.8: Indirect Addressing Mode | Computer Organisation and Architecture
  27. 27 L-2.9: Relative Addressing Mode || Computer Organisation and Architecture
  28. 28 L-2.10: Base Register Addressing Mode || Computer Organisation and Architecture
  29. 29 L-2.11: Indexed Addressing Mode || Computer Organisation and Architecture
  30. 30 L-2.12: Question on Addressing Modes | Computer Organization | UGC NTA NET 2021
  31. 31 L-3.1: Memory Hierarchy in Computer Architecture | Access time, Speed, Size, Cost | All Imp Points
  32. 32 L-3.2: Independent vs Hierarchical Memory Organisation | 2-Level Memory Organisation
  33. 33 L-3.3: 3-Level Memory Organisation || Computer Organisation and Architecture
  34. 34 L-3.4: GATE 2004 Question on 3-Level Memory Organisation || Computer Organisation and Architecture
  35. 35 L-3.5: What is Cache Mapping || Cache Mapping techniques || Computer Organisation and Architecture
  36. 36 L-3.6: Direct Mapping with Example in Hindi | Cache Mapping | Computer Organisation and Architecture
  37. 37 L-3.7: GATE 2005 Question on Direct Mapping | Cache Mapping Questions | Computer Organisation
  38. 38 L-3.8: Fully Associative Mapping with examples in Hindi | Cache Mapping | Computer Organisation
  39. 39 L-3.9: Advantages and Disadvantages of Direct Mapping | Cache Mapping | Computer Organisation
  40. 40 L-3.10: Set Associative Mapping with Examples in Hindi | Cache Mapping | Computer Organisation
  41. 41 L-3.11: Locality of Reference in Cache Memory | Spatial Vs Temporal Locality | Computer Organisation
  42. 42 L-3.12: Cache Replacement Algorithms in Computer Organisation and Architecture
  43. 43 L-3.13: LRU (Least Recently Used) Cache Replacement Algorithm | Computer Organisation & Architecture
  44. 44 L-3.14: Gate 2014 Question on Set Associative Cache Mapping | Computer Organisation and Architecture
  45. 45 L-3.15: FIFO Cache Replacement Policy with example | Computer Organisation and Architecture
  46. 46 L-3.16: LRU(least recently used ) Cache Replacement Policy | Computer Organisation and Architecture
  47. 47 L-4.1: Pipelining with real life example| Need of Pipelining | COA
  48. 48 L-4.2: Pipelining Introduction and structure | Computer Organisation
  49. 49 L-4.3: Pipelining Vs Non-Pipelining | Instruction Execution | Speedup, Efficiency, Utilization | COA
  50. 50 L-4.4: Stage Delay in Pipeline | Previous Year GATE Question | Computer Organisation & Architecture
  51. 51 L-4.5: Numerical Question on Pipelining | Previous year GATE Question | COA
  52. 52 L-4.6: What is Hazard in Pipelining | various types of Hazards | computer Architecture
  53. 53 L-4.7: Structural Hazards in Pipelining | Types of Hazards with Example in Hindi
  54. 54 L-4.8: Control Hazards in Pipelining | Types of Hazards with Example in Hindi
  55. 55 L-4.9: What is Read After Write(RAW) Hazards| Data Hazard in Pipelining with Example in Hindi | COA
  56. 56 L-4.10: Write After Read Hazard with Example|Data Hazards| Computer Organisation and Architecture
  57. 57 L-4.11: Write After Write Hazard | Data Hazards in Pipelining | Computer Organization &&Architecture
  58. 58 I/O Interface in Computer Organization
  59. 59 Daisy Chaining in Priority Interrupt | Priority Based Interrupt in I/O Organization
  60. 60 Parallel priority interrupt | I/O organization
  61. 61 Question on Interrupt Handling(I/O organization) | Computer Organization | UGC NTA NET June 2021
  62. 62 Question on DMA (Direct Memory Access) | Input/Output Organization| COA | UGC NTA NET June 2021
  63. 63 RISC vs CISC | Computer Organization & Architecture

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