11 hours ago
Computer Engineering Mastery: From Beginner To Expert!
Last updated 8/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 8.23 GB | Duration: 32h 6m
Engineer's Playground (The Ultimate Journey For Computer Engineering)
What you'll learn
Introduction of what we call a computer and its advancement throughout these years
All the components that are essential to make a computer. Foundation for the entire computer engineering
Strong foundation of Programming using Python with its practical lab.
Semiconductors science and why its important
Logic (Boolean Algebra) with all the operations and Karnaugh mapping and its solution techniques.
Machines/Instruments that you really need to know as an engineer
Concepts of Assembly language programming that is used to program hardware architectures
Electrical Technologies building blocks of electronics
K map and simplifications with the help of example explained step by step approach
Computer Organization & Architecture
Advanced Computer Architecture (CPU's, Memory types and its functions and more..)
Digital & Analog Communication foundations
Dozens of questions and example explained step by step on various topics..
Microprocessor's detailed introduction (ICs)
8086 Architecture (BIU & EU)
Difference between 8086 Vs 8085
All it takes to become Computer Engineer
Requirements
Internet connection
Technical bent of mind would be helpful but not compulsory
Description
Are you ready to unlock the secrets of the digital universe and become a trailblazer in computer engineering? "Computer Engineering Mastery: From Beginner to Expert" is not just a course; it's your gateway to mastering the very foundations and frontiers of technology. Imagine a journey where every lesson is a step towards becoming a highly skilled expert in the world of computers, and you're about to embark on it.Why This Course is Your Perfect Choice *Immerse Yourself in Excellence*Step into a realm where complex concepts become crystal clear and technology's wonders are at your fingertips. Our course offers a meticulously designed curriculum that takes you from the basics to advanced mastery, all while making learning an exhilarating experience. With each module, you'll find yourself drawn deeper into the captivating world of computer engineering.Learn from the BestImagine having direct access to a seasoned expert who has transformed countless learners into computer engineering wizards. You'll receive instruction that's both enlightening and engaging, delivered by someone passionate about making every concept not just understood but truly grasped. I am going to guide you through each topic with precision and enthusiasm, making every lesson an adventure. Engage in Interactive MasteryPicture a learning experience where traditional methods blend seamlessly with interactive, modern techniques. Our course doesn't just tell you how things work; it immerses you in practical exercises, real-world scenarios, and interactive sessions that make applying your knowledge both enjoyable and effective. Future-Proof Your SkillsWhat if you could gaze into the future and see where technology is heading? This course gives you that insight. Not only will you master essential computer engineering principles, but you'll also get the foundation so that you can learn and further explore cutting-edge technologies like artificial intelligence, machine learning, deep learning, Computer electronics, Microprocessors (ULSI) the field of Network engineering, Developer and quantum computing in fact sky is the limit of what you can do. Equip yourself with the knowledge that puts you at the forefront of innovation.In a world where technology evolves rapidly, staying current is crucial. That's why **"Computer Engineering Mastery: From Beginner to Expert"** Keeps your back!Your learning journey will always reflect the most current trends and technologies and you will always be able to find your learnings relevant.Experience Unmatched ValueImagine receiving world-class education that's both affordable and exceptional. Our course offers lifetime access to all materials and ensuring you're always in sync with the latest advancements. It's not just a course; it's a lifelong investment in your skills and future.We believe so strongly in the transformative power of **"Computer Engineering Mastery: From Beginner to Expert"** Who Will Benefit?- *Aspiring Computer Scientists & Engineers & Students*: Begin your journey with a solid foundation and reach expert levels of knowledge.- *Professionals Seeking to Elevate Their Skills*: Revitalize your career with cutting-edge expertise and advanced skills.- *Enthusiasts & Self-Learners*: Dive into a comprehensive learning experience that transforms your passion into practical skills.*Course Highlights*- **Lifetime Access: Immerse yourself in learning with perpetual access to course materials.- **Interactive Q&A: Engage in meaningful discussions and get answers to your questions directly from the instructor.- **Certification of Completion: Showcase your newfound expertise and enhance your professional profile with a prestigious certificate.This is more than a course; it's your launchpad to becoming a master in computer engineering. "Computer Engineering Mastery: From Beginner to Expert" is where your journey begins, where your skills are honed, and where your future unfolds. Enroll now and take the first step towards mastering the art and science of computer engineering. *This is the place. This is the time. Start now and transform your future!
Overview
Section 1: What is a Computer?
Lecture 1 Introduction of Computer
Lecture 2 History of Computer
Lecture 3 Generations of Computer
Lecture 4 Types of Computer
Lecture 5 Types of digital computer
Lecture 6 Chit chat
Section 2: Basic Components of a computer (OPTIONAL)
Lecture 7 CPU (Hardware intro..)
Lecture 8 Memory
Lecture 9 Storage
Lecture 10 Motherboard
Lecture 11 I/O
Lecture 12 PSU & GPU
Lecture 13 cooling system
Lecture 14 Software Intro..
Lecture 15 O.S
Lecture 16 Functions of OS 1/2
Lecture 17 Functions of OS 2/2
Lecture 18 Types of OS (introduction)
Lecture 19 Applications of Software 1/4
Lecture 20 Application of Software 2/4
Lecture 21 Application of Software 3/4
Lecture 22 Application of Software 4/4
Lecture 23 Types of OS
Lecture 24 Data Representation
Lecture 25 curious attempt
Lecture 26 Bits, Bytes & Binary
Lecture 27 Hexadecimal system
Lecture 28 Networking
Lecture 29 LAN MAN WAN
Lecture 30 IP (Internet Protocol)
Lecture 31 Routers & Switches
Lecture 32 Operations 1/2
Lecture 33 Operations 2/2
Section 3: Semiconductor
Lecture 34 What is Semiconductor ?
Lecture 35 Types of Semiconductor
Lecture 36 Bandgap
Lecture 37 Electron jump (Fermi level)
Lecture 38 Depletion region
Lecture 39 Reality of holes
Lecture 40 Junction devices
Lecture 41 Diode
Lecture 42 Zener diode
Lecture 43 Coming up next
Lecture 44 Biases
Lecture 45 Why "N" are on the top? And Logic gates
Lecture 46 Photo cells Vs Solar cells
Lecture 47 AND Gate
Lecture 48 OR & NOT Gate
Section 4: Logic (Boolean Algebra)
Lecture 49 Introduction with Binary language
Lecture 50 Number system
Lecture 51 Conversion
Lecture 52 Fraction & Decimal to Binary
Lecture 53 Practice with fraction and it's binary conversions
Lecture 54 Octa and Hexa into Decimal
Lecture 55 Binary to Octa and Hexa..
Lecture 56 Binary arithmetic
Lecture 57 Compliment
Lecture 58 Weighted Binary
Lecture 59 Non Weighted Binary
Lecture 60 Postulates of Binary Algebra
Lecture 61 Boolean Operator's
Lecture 62 Karnaugh map introduction
Lecture 63 Karnaugh map (simplification)
Lecture 64 Don't Care Condition
Lecture 65 Karnaugh map (Practice Questions) & SOP & POS forms.
Lecture 66 Prime implicants
Section 5: Machines/Instruments
Lecture 67 Introduction
Lecture 68 Galvanometer
Lecture 69 Voltmeter
Lecture 70 Ammeter
Lecture 71 Watt meter (Energy meter)
Lecture 72 Voltage Regulator
Lecture 73 Linear Voltage regulator
Lecture 74 Inverter
Lecture 75 SMPS
Lecture 76 UPS
Lecture 77 CRO
Section 6: Electrical technology
Lecture 78 Intro with DC and AC electricity
Lecture 79 Resistance
Lecture 80 Capacitor
Lecture 81 Inductor
Lecture 82 LCR circuit
Section 7: Digital logic & Designs (memory/flip-flops)
Lecture 83 Introduction
Lecture 84 Logic Gates
Lecture 85 Substituting One logic Gate to another
Lecture 86 Half adder
Lecture 87 Full adder
Lecture 88 Subtractor (Half & Full)
Lecture 89 Decoder
Lecture 90 Designing decoder
Lecture 91 Multiplex
Lecture 92 Multiplex cont..
Lecture 93 Demultiplexer
Lecture 94 Encoder
Lecture 95 Sequential Circuit
Lecture 96 Flip Flops
Lecture 97 Flip Flops cont..
Lecture 98 Flip Flops final lesson
Lecture 99 Counters
Section 8: Computer Organization & Architecture
Lecture 100 Introduction
Lecture 101 Assembly language (machines instructions)
Lecture 102 Subroutine
Lecture 103 Addressing modes (Types)
Lecture 104 Instruction Cycle
Section 9: Advanced Computer Architecture
Lecture 105 C.P.U
Lecture 106 C.P.U (Registers cont..)
Lecture 107 Program Status
Lecture 108 Concept definitions of (C.P.U)
Lecture 109 Instruction pipelining
Lecture 110 Memory (Introduction and types)
Lecture 111 RAM & ROM 1/2
Lecture 112 RAM & ROM 2/2
Lecture 113 Cache memory
Lecture 114 Memory address map
Lecture 115 Write strategies
Lecture 116 Mapping
Lecture 117 Types of Mapping
Lecture 118 Virtual memory
Section 10: Digital & Analogue Communication
Lecture 119 What is Communication?
Lecture 120 Duplex
Lecture 121 Types of protocols over internet
Lecture 122 Analog Communication
Lecture 123 Digital Communication
Lecture 124 Parity
Section 11: Microprocessors
Lecture 125 Introduction to microprocessors
Lecture 126 Processors continue..
Lecture 127 Why Only Hexadecimals are used in microprocessors??
Section 12: Basics for Quick refreshment
Lecture 128 Amplifier & Oscillator handwritten notes.
Lecture 129 Kilo, Mega, Giga, Tera and more..
Section 13: 8086 Architecture
Lecture 130 8086 introduction [BIU]
Lecture 131 BIU (Segment Register)
Lecture 132 Instruction Pointer
Lecture 133 EU (Execution unit)
Lecture 134 8086 details with short summary
Lecture 135 8085 Vs 8086
Section 14: Python Programming
Lecture 136 Why should i learn programming?
Lecture 137 What is a Program
Lecture 138 What is Python ?
Lecture 139 History & Why Python
Lecture 140 IDE
Lecture 141 Python Lab 1
Lecture 142 Variables
Lecture 143 Reserved Keywords
Lecture 144 Numeric Data Type
Lecture 145 Complex No.s
Lecture 146 Float
Lecture 147 Python Lab 2
Lecture 148 Dictionary
Lecture 149 Python Lab 3
Lecture 150 Boolean
Lecture 151 Python Lab 4
Lecture 152 Set
Lecture 153 Python Lab 5
Lecture 154 Operations of Set
Lecture 155 Python Lab 6
Lecture 156 Sequence
Lecture 157 Python lab 7 (Tuples)
Lecture 158 Python lab 8 (list & its operations)
Lecture 159 Basic Operators in Python
Lecture 160 Flags
Lecture 161 Comment
Lecture 162 Python lab 9 (comments)
Lecture 163 Control flow and control structure
Lecture 164 Modular Programming
Lecture 165 Decorators (Advanced function Concepts basics)
Lecture 166 Generators (Advanced function Concepts basics)
Lecture 167 Metaclass (Advanced function Concepts basics)
Lecture 168 Context manager (Advanced function Concepts basics)
Lecture 169 Asynchronous Programming (Advanced function Concepts basics)
Lecture 170 OOPs introduction
Lecture 171 Classes
Lecture 172 Objects
Lecture 173 Inheritance
Lecture 174 Polymorphism
Lecture 175 Advanced OOPs
Lecture 176 File Handling
Lecture 177 Important functions
Lecture 178 Exception Handling
Lecture 179 Best practices
Lecture 180 Chit Chat
Aspiring Computer Engineers,Aspiring Computer Scientists,Current Computer Science Students,Professionals in the IT Industry,Technicians and Technologists,Hobbyists and Enthusiasts,Career Changers,Self-Learners