Computer Organization and Architecture

Computer Organization and Architecture

Gate Smashers via YouTube Direct link

L-3.1: Memory Hierarchy in Computer Architecture | Access time, Speed, Size, Cost | All Imp Points

31 of 63

31 of 63

L-3.1: Memory Hierarchy in Computer Architecture | Access time, Speed, Size, Cost | All Imp Points

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

Computer Organization and Architecture

Automatically move to the next video in the Classroom when playback concludes

  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

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Someone learning on their laptop while sitting on the floor.