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Computer Architecture And Organization - AD-TEAM - 03-13-2025
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Computer Architecture And Organization
Published 4/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 24.32 GB | Duration: 24h 0m
Attain Mastery in the Core Concepts of Computer Architecture and Organization with our 15+ Years experienced Faculty
What you'll learn
Computer Architecture Fundamentals
Instructions of Computer
Control Unit
Pipelining Concept
Execution Unit
System Bus Architecture
Memory Organization
IO Organization
Ability to Analyze and Optimize Computer Systems
Insight into Hardware-Software Interaction
After completing this course, you'll establish a robust foundation in the subject, poised for advanced exploration
Requirements
There is no specific prerequisite you will get step by step from basic
However a foundational understanding of digital electronics is good for grasping the concepts covered in this subject
Description
Computer organization is concerned with the structure and behavior of digital computers. The main objective of this subject is to understand the overall basic computer hardware structure, including the peripheral devices.This Computer Organization and Architecture course is specially designed for engineering students who want to understand how exactly computer architecture works and is also helpful for working professionals. This is a unique course in the online marketplace.This course is beneficial to the students of various branches such as Computer Engineering, Electronics, and Communication Engineering, IT Engineering, BCA, MCA, BSC-MSC IT, etc.This course covers the following topics.- Fundamentals of computer architecture and organization- Control unit- Machine Instruction and Microinstruction- Pipelining- Arithmetic Unit- System Bus- Memory Organization (Cache Memory)- Input Output OrganizationThe course on Computer Architecture and Organization delves into the foundational principles governing the design and functionality of computer systems. Students will explore the intricate relationship between hardware and software, understanding how computer components interact to execute instructions.Emphasis is placed on critical thinking and problem-solving skills, empowering students to analyze and optimize computer systems for efficiency and performance.This entire course is covered in very simple English language so that it is very easy to grasp core concepts for all class.By the end of the course, participants will have a comprehensive understanding of computer organization, equipping them with essential knowledge for future endeavors in the field of computing.All the best.
Overview
Section 1: Course Introduction
Lecture 1 Introduction
Section 2: Computer Architecture
Lecture 2 Introduction to COA
Lecture 3 Computer Architecture in COA
Lecture 4 Von Neumann Architecture
Lecture 5 Harvard Architecture
Lecture 6 Von Neumann Vs Harvard Architecture
Lecture 7 Flynn's Classification
Lecture 8 RISC & CISC Architecture
Lecture 9 Little Endian and Big Endian Computer
Lecture 10 Examples of Little Endian and Big Endian
Lecture 11 Exclusive Questions of Computer Organization
Lecture 12 Memory Interfacing with Computer
Lecture 13 Memory Interfacing with Computer
Lecture 14 Memory Interfacing with Computer
Lecture 15 Memory Interfacing with Computer
Lecture 16 Registers of Basic Computer
Lecture 17 Registers Organization in COA
Lecture 18 Common Bus Access using MUX
Lecture 19 Working of Computer using Common Bus
Lecture 20 Questions of Registers of Computer
Section 3: Instructions of Computer
Lecture 21 Instruction Formats & ALU
Lecture 22 Examples on Instruction Format
Lecture 23 Instruction Cycle
Lecture 24 Timings & Flowchart of Instruction Cycle
Lecture 25 Instruction Cycle State Transition Diagram
Lecture 26 Types of Instructions
Lecture 27 Addressing Modes
Lecture 28 Example of Addressing Modes
Lecture 29 Example of Addressing Modes
Lecture 30 Example of Addressing Modes
Lecture 31 Example of Addressing Modes
Lecture 32 Examples of Instruction Execution
Lecture 33 Examples of Instruction Execution
Lecture 34 Examples of Instruction Execution
Lecture 35 Examples of Instruction Format
Lecture 36 Examples of Instruction Format
Lecture 37 Examples of Instruction Format
Lecture 38 Examples of Instruction Format
Section 4: Control Unit
Lecture 39 CPU Performance Parameters
Lecture 40 Examples on CPU Performance
Lecture 41 Speed Up Factor of CPU
Lecture 42 Amdahl's Law
Lecture 43 Examples on CPU Performance
Lecture 44 Examples of CPU Performance
Lecture 45 Micro Operations of Instruction
Lecture 46 Hardwired Control Units
Lecture 47 Wilkes Design for Microprogrammed Control Unit
Lecture 48 Basic Microprogrammed Control Unit
Lecture 49 Hardwired Control Unit Vs Microprogrammed CU
Lecture 50 Horizontal Vs Vertical Microinstruction
Lecture 51 Nano Programming
Lecture 52 Microinstruction Format
Lecture 53 Examples based on Microinstruction
Lecture 54 Examples based on Microinstruction
Lecture 55 Examples based on Microinstruction
Lecture 56 Examples of Control Unit
Lecture 57 Registers Organization of RISC Processor
Section 5: Pipeline
Lecture 58 Pipelining in COA
Lecture 59 Parameters of Pipelining
Lecture 60 Structural Hazards
Lecture 61 Data Hazards
Lecture 62 Control Hazards
Lecture 63 Examples on Pipelining
Lecture 64 Examples on Pipelining
Lecture 65 Examples on Pipelining
Lecture 66 Examples on Pipelining
Lecture 67 Examples on Pipelining Hazards
Lecture 68 Example of Addressing Modes
Lecture 69 Non Synchronized Pipeline
Lecture 70 Non Synchronized Pipeline
Lecture 71 CPI & Speed Up in Pipelining with Hazards
Lecture 72 Examples on Pipeline Hazards
Section 6: Execution Unit
Lecture 73 Why computer prefers 2's complement in signed data
Lecture 74 Signed Data representation and range of siged number
Lecture 75 Examples on Number Representation
Lecture 76 Examples on Number Representation
Lecture 77 Normalization of Floating Point Number
Lecture 78 IEEE 754 32bits single precision floating point format
Lecture 79 IEEE 754 64bits Double precision floating point format
Lecture 80 Extreme Cases of Floating Point Representation
Lecture 81 Examples of floating point Numbers
Lecture 82 Examples of floating point Numbers
Lecture 83 Examples of floating point Numbers
Lecture 84 Half Adder and Full Adder
Lecture 85 Serial Adder or Ripple Carry Adder
Lecture 86 Carry Look Ahead Adder
Lecture 87 Subtractor
Lecture 88 4 Bits Adder Subtractor
Lecture 89 Booth's Algorithm Example 1
Lecture 90 Booth's Algorithm Example 2
Lecture 91 Booth's Algorithm
Lecture 92 Restoring Division
Lecture 93 Non Restoring Division
Section 7: System Bus
Lecture 94 System Bus
Lecture 95 Bus Contention and Bus Arbitration
Section 8: Memory Organization
Lecture 96 Memory Organization
Lecture 97 Locality of Reference
Lecture 98 Average Access Time & Access Speed of Memory
Lecture 99 Example on Average Access Time and Access Speed of Memory
Lecture 100 Cache Memory Organization
Lecture 101 Example on Cache Memory Organization
Lecture 102 Direct Address Mapping
Lecture 103 Example on Direct Address Mapping
Lecture 104 Fully Associative Address Mapping
Lecture 105 Example on Fully Associative Address Mapping
Lecture 106 Set Associative Address Mapping
Lecture 107 Example on Set Associative Address Mapping
Lecture 108 Replacement Strategies
Lecture 109 Example on Replacement Strategies
Lecture 110 Updation Techniques
Lecture 111 Write Through Updation.mp4
Lecture 112 Write Back Updation
Lecture 113 Multi Level Cache
Lecture 114 Types of Misses
Lecture 115 Examples on Cache Memory
Lecture 116 Examples on Cache Memory
Lecture 117 Examples on Cache Memory
Lecture 118 Examples on Cache Memory
Lecture 119 Examples on Cache Memory
Lecture 120 Examples on Cache Memory
Lecture 121 Examples on Cache Memory
Section 9: IO Organization
Lecture 122 IO Organization
Lecture 123 Programmed IO
Lecture 124 Interrupt Driven IO
Lecture 125 DMA
Lecture 126 Examples on DMA
Lecture 127 Examples on DMA
Computer Science Engineer,Software Professionals,Any Branch students having this subject as a part of curriculum,If you are preparing for exams such as GATE, IES, ISRO, PGEE , BITS HD,Anyone who is preparing for Interview in the field of computer science,System Administrators and IT Professionals,Computer Enthusiasts and Hobbyists
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