Computer Organization And Architecture - Part 3
Last updated 9/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 13.48 GB | Duration: 12h 54m
Last updated 9/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 13.48 GB | Duration: 12h 54m
Learn Computer Organization and Architecture of Computer Science in the most simplified manner
What you'll learn
You will become very familiar with the topics of machine instructions, addressing modes, signed numbers topics
You will be able to challenge the interviewer on questions related to Computer Architecture & Organization
You will view Computer Science in a different dimension
You will be able to answer all questions of exams like GATE,PGEE,ISRO (after completing all parts of CO course)
You will be able to get a top grade in your Computer Architecture & Organization course in your Bachelor's degree (after completing all parts of CO))
Understand how machine instructions, addressing modes, signed numbers works
Requirements
Have a PC with internet connection
Have basic idea of computer science concepts
Description
You’ve just stumbled upon the most in-depth Computer Organization & Organization course series online. With over 15,000 students enrolled and thousands of 5 star reviews to date in the area of computer science, my computer science courses are enjoyed by students from 130 countries. Whether you want to:- build the skills in computer architecture and organization - crack interview questions on machine instructions, addressing modes, signed numbers topics of computer architecture and organization.- or just understand computers on how instructions work in a computer…this complete Masterclass on computer organization and architecture is the course you need to do.Are you aiming to get a degree in the area of computer science as a topper ? This course is designed to give you the skills you need to answer any question on machine instructions, addressing modes, signed numbers topics. By the end of the course you will understand machine instructions, addressing modes, signed numbers topics of computer organization extremely well and be able to answer any question on these topics.Lots of students have been successful with getting their first job or a promotion after going through my courses on computer science.Why would you choose to learn Computer Organization & Architecture ?The reality is that there is a lot of computer science courses out there. It's in the hundreds. Why would you choose my courses ?The number one reason is its simplicity. According to many students in udemy, my courses are simple to understand as I always teach concepts from scratch in a simple language.The second reason is you get a mentor for computer science through this course. I get lot of doubts from students regarding their career in computer science like which elective subject to choose, which book to refer, etc. The third reason is, you are not just watching my videos, you can also ask doubts if you get one while watching the lectures. Which text book should you refer ?I have used Computer Organization by Carl Hamacher. Its a great textbook. You can follow it. But I have referred lot of other textbooks like Hennessy Patterson, William Stallings, etc. So its upto you on which textbook you are comfortable with but follow a standard author book. If you complete this course, you will find it much easier to understand these textbooks. But anyway if you complete this course with good detailed notes, you don't need to read any textbook as I am reading them for you and giving the contents in an easy to understand manner.Why should you take this course?You will be joining over 15000 students who are already enrolled in one of my courses.There are 4000+ reviews left by students. My Courses are rated as the best course to learn computer science for beginners.What makes this course a standout?Like you, thousands of others were frustrated and fed up with incomplete Youtube tutorials which assume you already know a bunch of stuff and also bulk textbooks able to send even the most intuitive person to sleep.Like you, they were tired of low-quality lessons, poorly explained topics and all-round confusing info presented in the wrong way. That’s why so many find success in my courses. It’s designed in a simple manner so that anybody will be able to understand. What if I have questions?You can ask questions anytime using the Q/A section or through personal messages. I take it very seriously and answer these questions in a detailed manner with simple english words so that anybody can understand it. Student Quote: “Everything you always wanted to know about OS but were afraid to ask"…And Vignesh Sekar gives the right answers” by Claus Kaliba.There’s no risk either!This course comes with a full 30 day money-back guarantee. Meaning if you are not completely satisfied with the course, you can request udemy for a refund within the first 30 days of purchase.You either end up with Computer Organization skills, learn other core computer subjects, get placed in top notch companies or research areas or you try the course and simply get all your money back if you don’t like it…You literally can’t lose.Ready to get started ?Enrol now using the “Add to Cart” button on the right, and get started on your way to computer science. See you on the inside (hurry, Computer Architecture & Organization Series is waiting!)
Overview
Section 1: Introduction
Lecture 1 Introduction : High Level Code vs Assembly Code vs Machine Code
Lecture 2 Introduction : High Level Code vs Assembly Code vs Machine Code continued
Lecture 3 Instruction Set of a Processor
Section 2: RISC vs CISC
Lecture 4 RISC vs CISC
Lecture 5 RISC vs CISC continued
Lecture 6 More Insights on RISC vs CISC
Section 3: Basics of Computer Architecture
Lecture 7 Components of a CPU
Lecture 8 Special purpose vs General purpose registers, Basics of Control Signals
Lecture 9 How Instructions are represented in a computer using Binary Numbers
Lecture 10 Various ways of representing the Addressing Mode Information in an Instruction
Section 4: Register Addressing Mode
Lecture 11 Register Addressing Mode
Lecture 12 Advantages and Disadvantages of Register Addressing Mode
Section 5: Direct & Indirect Addressing Mode
Lecture 13 Direct Addressing Mode
Lecture 14 Advantages and Disadvantages of Direct Addressing Mode
Lecture 15 Indirect Addressing Mode
Section 6: Immediate Addressing Mode
Lecture 16 Immediate Addressing Mode
Lecture 17 When Immediate Addressing Mode is used
Section 7: Register Indirect Addressing Mode and Auto Increment/ Decrement Addressing Mode
Lecture 18 Register Indirect Addressing Mode
Lecture 19 Linear Access of elements of an array with Register Indirect Addressing Mode
Lecture 20 Auto Increment Addressing Mode
Lecture 21 Auto Decrement Addressing Mode, Pre vs Post Increment/Decrement Mode
Section 8: Displacement Addressing Modes
Lecture 22 Various Displacement Addressing Modes
Lecture 23 Indexed Addressing Mode
Lecture 24 Base Addressing Mode
Lecture 25 Base Addressing Mode continued
Lecture 26 Summary : Base Addressing Mode vs Indexed Addressing Mode
Lecture 27 PC Relative Addressing Mode
Section 9: Implied Addressing Mode
Lecture 28 Implied Addressing Mode
Section 10: CPU Organization Types
Lecture 29 Introduction : CPU Organization
Lecture 30 General Register CPU Organization
Lecture 31 Single Accumulator CPU Organization
Lecture 32 Stack based CPU Organization
Lecture 33 Stack based CPU Organization continued
Lecture 34 More on Stack based CPU Organization
Lecture 35 Memory Stack vs Register Stack CPU Organization
Section 11: Basics of Number System
Lecture 36 Number System from scratch
Lecture 37 Convert Decimal to Any Number System
Lecture 38 Convert Any Number System to Decimal Number System
Section 12: Addition in Other Number Systems
Lecture 39 How to perform Addition of 2 numbers in other number systems
Lecture 40 Base 16 (Hexadecimal) Addition
Lecture 41 Base 2 (Binary) Addition
Section 13: Signed Number Representation : Sign Magnitude Representation
Lecture 42 Introduction to Signed Number Representation
Lecture 43 Sign Magnitude Representation
Lecture 44 Range and Number of numbers we can represent in Sign Magnitude Representation
Section 14: Complements : Radix and Diminished Radix Complements
Lecture 45 Radix Complement and Diminished Radix Complements of a number in base b
Lecture 46 Decimal Format of Largest Number possible with n bits in base b number system
Lecture 47 Why Complement of Complement gives the original number
Section 15: Signed Number Representation : 1's Complement Representation
Lecture 48 1's Complement Representation Explained
Lecture 49 Problem 1 on 1's Complement Representation
Lecture 50 Problem 2 on 1's Complement Representation
Lecture 51 Range of numbers we can represent with n bits in 1's Complement Representation
Lecture 52 Advantage of 1’s complement representation over sign magnitude representation
Lecture 53 Minimum number of bits needed to represent a number
Lecture 54 Minimum number of bits needed to represent a number 2
Lecture 55 Overflow during 1's complement addition
Lecture 56 Overflow during 1's complement addition continued
Section 16: Signed Number Representation : 2’s Complement Representation
Lecture 57 2’s Complement Representation Explained
Lecture 58 Range of Numbers we can represent with n bits in 2’s Complement Representation
Lecture 59 Another advantage of 2’s complement representation
Lecture 60 Problem 1 on 2's Complement Representation
Lecture 61 Problem 2 on 2's Complement Representation
Lecture 62 Problem 3 on 2's Complement Representation
Lecture 63 Problem 4 on 2's Complement Representation
Section 17: Sign Bit Extension
Lecture 64 Sign Bit Extension explained from scratch
Lecture 65 Sign Bit Extension explained from scratch 2
Lecture 66 Important Point to note
Lecture 67 Problem 1
Lecture 68 Problem 2
Lecture 69 Problem 2 continued
Lecture 70 Problem 3
Lecture 71 Problem 4
Lecture 72 Problem 5
Anybody who needs to learn Computer Architecture & Organization from scratch,Anybody who wants to pursue a career in Computer Science,Anybody who has Computer Architecture & Organization in the Bachelor's degree (I am sure most of them will have),Anybody who is preparing for interview in product based companies,If you are preparing for exams like GATE , PGEE , BITS HD , ISRO ,..etc,If you are a Computer Science Engineer,If you are a software professional