Build a Modern Computer from First Principles: From Nand to Tetris (Project-Centered Course)

Build a Modern Computer from First Principles: From Nand to Tetris (Project-Centered Course)

About this course: What you’ll achieve: In this project-centered course* you will build a modern computer system, from the ground up. We’ll divide

Evolution: A Course for Educators
Online- Indiana Wesleyan University
Design and Make Infographics (Project-Centered Course)

About this course: What you’ll achieve: In this project-centered course* you will build a modern computer system, from the ground up. We’ll divide this fascinating journey into six hands-on projects that will take you from constructing elementary logic gates all the way through creating a fully functioning general purpose computer. In the process, you will learn – in the most direct and constructive way – how computers work, and how they are designed. What you’ll need: This is a self-contained course: all the knowledge necessary to succeed in the course and build the computer system will be given as part of the learning experience. Therefore, we assume no previous computer science or engineering knowledge, and all learners are welcome aboard. You will need no physical materials, since you will build the computer on your own PC, using a software-based hardware simulator, just like real computers are designed by computer engineers in the field. The hardware simulator, as well as other software tools, will be supplied freely after you enroll in the course. Course format: The course consists of six modules, each comprising a series of video lectures, and a project. You will need about 2-3 hours to watch each module’s lectures, and about 5-10 hours to complete each one of the six projects. The course can be completed in six weeks, but you are welcome to take it at your own pace. You can watch a TED talk about this course by Googling “nand2tetris TED talk”. *About Project-Centered Courses: Project-centered courses are designed to help you complete a personally meaningful real-world project, with your instructor and a community of learners with similar goals providing guidance and suggestions along the way. By actively applying new concepts as you learn, you’ll master the course content more efficiently; you’ll also get a head start on using the skills you gain to make positive changes in your life and career. When you complete the course, you’ll have a finished project that you’ll be proud to use and share.

WEEK 1
Introduction
WEEK 2
Boolean Arithmetic and the ALU
WEEK 3
Memory
WEEK 4
Machine Language
WEEK 5
Computer Architecture
WEEK 6
Assembler

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