Free Computer Science degree from GitHubβs Open Source
Props to the creators
Eric Douglas: founder of OSSU
Josh Hanson: lead technical maintainer
Waciuma Wanjohi: lead academic maintainer
For best experience, use Github site
Contents
Summary
The OSSU curriculum is a complete education in computer science using online materials. It's not merely for career training or professional development. It's for those who want a proper, well-rounded grounding in concepts fundamental to all computing disciplines, and for those who have the discipline, will, and (most importantly!) good habits to obtain this education largely on their own, but with support from a worldwide community of fellow learners.
It is designed according to the degree requirements of undergraduate computer science majors, minus general education (non-CS) requirements, as it is assumed most of the people following this curriculum are already educated outside the field of CS. The courses themselves are among the very best in the world, often coming from Harvard, Princeton, MIT, etc., but specifically chosen to meet the following criteria.
Courses must:
Be open for enrollment
Run regularly (ideally in self-paced format, otherwise running multiple times per year)
Be of generally high quality in teaching materials and pedagogical principles
Match the curricular standards of the CS 2013: Curriculum Guidelines for Undergraduate Degree Programs in Computer Science
When no course meets the above criteria, the coursework is supplemented with a book. When there are courses or books that don't fit into the curriculum but are otherwise of high quality, they belong in extras/courses or extras/readings.
Organization. The curriculum is designed as follows:
Intro CS: for students to try out CS and see if it's right for them
Core CS: corresponds roughly to the first three years of a computer science curriculum, taking classes that all majors would be required to take
Advanced CS: corresponds roughly to the final year of a computer science curriculum, taking electives according to the student's interests
Final Project: a project for students to validate, consolidate, and display their knowledge, to be evaluated by their peers worldwide
Duration. It is possible to finish within about 2 years if you plan carefully and devote roughly 20 hours/week to your studies. Learners can use this spreadsheet to estimate their end date. Make a copy and input your start date and expected hours per week in the Timeline
sheet. As you work through courses you can enter your actual course completion dates in the Curriculum Data
sheet and get updated completion estimates.
Cost. All or nearly all course material is available for free. However, some courses may charge money for assignments/tests/projects to be graded. Note that both Coursera and edX offer financial aid.
Decide how much or how little to spend based on your own time and budget; just remember that you can't purchase success!
Process. Students can work through the curriculum alone or in groups, in order or out of order.
We recommend doing all courses in Core CS, only skipping a course when you are certain that you've already learned the material previously.
For simplicity, we recommend working through courses (especially Core CS) in order from top to bottom, as they have already been topologically sorted by their prerequisites.
Courses in Advanced CS are electives. Choose one subject (e.g. Advanced programming) you want to become an expert in and take all the courses under that heading. You can also create your own custom subject, but we recommend getting validation from the community on the subject you choose.
Content policy. If you plan on showing off some of your coursework publicly, you must share only files that you are allowed to. Do NOT disrespect the code of conduct that you signed in the beginning of each course!
Getting help (Details about our FAQ and chatroom)
Community
We have a discord server! This should be your first stop to talk with other OSSU students. Why don't you introduce yourself right now? Join the OSSU Discord
You can also interact through GitHub issues. If there is a problem with a course, or a change needs to be made to the curriculum, this is the place to start the conversation. Read more here.
Subscribe to our newsletter.
Add Open Source Society University to your Linkedin profile!
Note: There is an unmaintained and deprecated firebase app that you might find when searching OSSU. You can safely ignore it. Read more in the FAQ.
Curriculum
Curriculum version: 8.0.0
(see CHANGELOG)
Prerequisites
Core CS assumes the student has already taken high school math, including algebra, geometry, and pre-calculus.
Advanced CS assumes the student has already taken the entirety of Core CS and is knowledgeable enough now to decide which electives to take.
Note that Advanced systems assumes the student has taken a basic physics course (e.g. AP Physics in high school).
Intro CS
Introduction to Programming
If you've never written a for-loop, or don't know what a string is in programming, start here. This course is self-paced, allowing you to adjust the number of hours you spend per week to meet your needs.
Topics covered: simple programs
simple data structures
CoursesDurationEffortPrerequisitesDiscussionIntroduction to programming10 weeks10 hours/weeknonechat
Introduction to Computer Science
This course will introduce you to the world of computer science. Students who have been introduced to programming, either from the courses above or through study elsewhere, should take this course for a flavor of the material to come. If you finish the course wanting more, Computer Science is likely for you!
Topics covered: computation
imperative programming
basic data structures and algorithms
and more
CoursesDurationEffortPrerequisitesDiscussionIntroduction to Computer Science and Programming using Python (alt)9 weeks15 hours/weekhigh school algebrachat
Core CS
All coursework under Core CS is required, unless otherwise indicated.
Core programming
Topics covered: functional programming
design for testing
program requirements
common design patterns
unit testing
object-oriented design
static typing
dynamic typing
ML-family languages (via Standard ML)
Lisp-family languages (via Racket)
Ruby
and more
CoursesDurationEffortPrerequisitesDiscussionSystematic Program Design (textbook) (alt: part 1 / part 2)13 weeks8-10 hours/weeknonechat: part 1 / part 2Programming Languages, Part A5 weeks4-8 hours/weekSystematic Program Design (Hear instructor)chatProgramming Languages, Part B3 weeks4-8 hours/weekProgramming Languages, Part AchatProgramming Languages, Part C3 weeks4-8 hours/weekProgramming Languages, Part BchatObject-Oriented Design4 weeks4 hours/weekBasic JavaDesign Patterns4 weeks4 hours/weekObject-Oriented DesignSoftware Architecture4 weeks2-5 hours/weekDesign Patterns
Core math
Discrete math (Math for CS) is a prerequisite and closely related to the study of algorithms and data structures. Calculus both prepares students for discrete math and helps students develop mathematical maturity.
Topics covered: discrete mathematics
mathematical proofs
basic statistics
O-notation
discrete probability
and more
CoursesDurationEffortNotesPrerequisitesDiscussionCalculus 1A: Differentiation (alt)13 weeks6-10 hours/weekThe alternate covers this and the following 2 courseshigh school mathchatCalculus 1B: Integration13 weeks5-10 hours/week-Calculus 1AchatCalculus 1C: Coordinate Systems & Infinite Series6 weeks5-10 hours/week-Calculus 1BchatMathematics for Computer Science (alt)13 weeks5 hours/week2015/2019 solutions 2010 solutions 2005 solutions.Calculus 1Cchat
CS Tools
Understanding theory is important, but you will also be expected to create programs. There are a number of tools that are widely used to make that process easier. Learn them now to ease your future work writing programs.
Topics covered: terminals and shell scripting
vim
command line environments
version control
and more
CoursesDurationEffortPrerequisitesDiscussionThe Missing Semester of Your CS Education2 weeks12 hours/week-chat
Core systems
Topics covered: procedural programming
manual memory management
boolean algebra
gate logic
memory
computer architecture
assembly
machine language
virtual machines
high-level languages
compilers
operating systems
network protocols
and more
CoursesDurationEffortAdditional Text / AssignmentsPrerequisitesDiscussionBuild a Modern Computer from First Principles: From Nand to Tetris (alt)6 weeks7-13 hours/week-C-like programming languagechatBuild a Modern Computer from First Principles: Nand to Tetris Part II6 weeks12-18 hours/week-one of these programming languages, From Nand to Tetris Part IchatOperating Systems: Three Easy Pieces10-12 weeks6-10 hours/week-Nand to Tetris Part IIchatComputer Networking: a Top-Down Approach8 weeks4β12 hours/weekWireshark Labsalgebra, probability, basic CSchat
Core theory
Topics covered: divide and conquer
sorting and searching
randomized algorithms
graph search
shortest paths
data structures
greedy algorithms
minimum spanning trees
dynamic programming
NP-completeness
and more
CoursesDurationEffortPrerequisitesDiscussionDivide and Conquer, Sorting and Searching, and Randomized Algorithms4 weeks4-8 hours/weekany programming language, Mathematics for Computer SciencechatGraph Search, Shortest Paths, and Data Structures4 weeks4-8 hours/weekDivide and Conquer, Sorting and Searching, and Randomized AlgorithmschatGreedy Algorithms, Minimum Spanning Trees, and Dynamic Programming4 weeks4-8 hours/weekGraph Search, Shortest Paths, and Data StructureschatShortest Paths Revisited, NP-Complete Problems and What To Do About Them4 weeks4-8 hours/weekGreedy Algorithms, Minimum Spanning Trees, and Dynamic Programmingchat
Core security
Topics covered Confidentiality, Integrity, Availability
Secure Design
Defensive Programming
Threats and Attacks
Network Security
Cryptography
and more
CoursesDurationEffortPrerequisitesDiscussionCybersecurity Fundamentals8 weeks10-12 hours/week-chatPrinciples of Secure Coding4 weeks4 hours/week-chatIdentifying Security Vulnerabilities4 weeks4 hours/week-chat
Choose one of the following:
CoursesDurationEffortPrerequisitesDiscussionIdentifying Security Vulnerabilities in C/C++Programming4 weeks5 hours/week-chatExploiting and Securing Vulnerabilities in Java Applications4 weeks5 hours/week-chat
Core applications
Topics covered: Agile methodology
REST
software specifications
refactoring
relational databases
transaction processing
data modeling
neural networks
supervised learning
unsupervised learning
OpenGL
ray tracing
and more
CoursesDurationEffortPrerequisitesDiscussionDatabases: Modeling and Theory2 weeks10 hours/weekcore programmingchatDatabases: Relational Databases and SQL2 weeks10 hours/weekcore programmingchatDatabases: Semistructured Data2 weeks10 hours/weekcore programmingchatMachine Learning11 weeks9 hours/weekBasic codingchatComputer Graphics6 weeks12 hours/weekC++ or Java, linear algebrachatSoftware Engineering: Introduction6 weeks8-10 hours/weekCore Programming, and a sizable projectchat
Core ethics
Topics covered: Social Context
Analytical Tools
Professional Ethics
Intellectual Property
Privacy and Civil Liberties
and more
CoursesDurationEffortPrerequisitesDiscussionEthics, Technology and Engineering9 weeks2 hours/weeknonechatIntroduction to Intellectual Property4 weeks2 hours/weeknonechatData Privacy Fundamentals3 weeks3 hours/weeknonechat
Advanced CS
After completing every required course in Core CS, students should choose a subset of courses from Advanced CS based on interest. Not every course from a subcategory needs to be taken. But students should take every course that is relevant to the field they intend to go into.
Advanced programming
Topics covered: debugging theory and practice
goal-oriented programming
parallel computing
object-oriented analysis and design
UML
large-scale software architecture and design
and more
CoursesDurationEffortPrerequisitesParallel Programming4 weeks6-8 hours/weekScala programmingCompilers9 weeks6-8 hours/weeknoneIntroduction to Haskell14 weeks--Learn Prolog Now! (alt)*12 weeks--Software Debugging8 weeks6 hours/weekPython, object-oriented programmingSoftware Testing4 weeks6 hours/weekPython, programming experience
(*) book by Blackburn, Bos, Striegnitz (compiled from source, redistributed under CC license)
Advanced systems
Topics covered: digital signaling
combinational logic
CMOS technologies
sequential logic
finite state machines
processor instruction sets
caches
pipelining
virtualization
parallel processing
virtual memory
synchronization primitives
system call interface
and more
CoursesDurationEffortPrerequisitesNotesComputation Structures 1: Digital Circuits alt1 alt210 weeks6 hours/weekNand2Tetris IIAlternate links contain all 3 courses.Computation Structures 2: Computer Architecture10 weeks6 hours/weekComputation Structures 1Computation Structures 3: Computer Organization10 weeks6 hours/weekComputation Structures 2
Advanced theory
Topics covered: formal languages
Turing machines
computability
event-driven concurrency
automata
distributed shared memory
consensus algorithms
state machine replication
computational geometry theory
propositional logic
relational logic
Herbrand logic
game trees
and more
CoursesDurationEffortPrerequisitesTheory of Computation (alt)13 weeks10 hours/weekMathematics for Computer Science, logic, algorithmsComputational Geometry16 weeks8 hours/weekalgorithms, C++Game Theory8 weeks3 hours/weekmathematical thinking, probability, calculus
Advanced Information Security
CoursesDurationEffortPrerequisitesWeb Security Fundamentals5 weeks4-6 hours/weekunderstanding basic web technologiesSecurity Governance & Compliance3 weeks3 hours/week-Digital Forensics Concepts3 weeks2-3 hours/weekCore SecuritySecure Software Development: Requirements, Design, and Reuse7 weeks1-2 hours/weekCore Programming and Core SecuritySecure Software Development: Implementation7 weeks1-2 hours/weekSecure Software Development: Requirements, Design, and ReuseSecure Software Development: Verification and More Specialized Topics7 weeks1-2 hours/weekSecure Software Development: Implementation
Advanced math
CoursesDurationEffortPrerequisitesDiscussionEssence of Linear Algebra--high school mathchatLinear Algebra14 weeks12 hours/weekcorequisite: Essence of Linear AlgebrachatIntroduction to Numerical Methods14 weeks12 hours/weekLinear AlgebrachatIntroduction to Formal Logic10 weeks4-8 hours/weekSet TheorychatProbability15 weeks5-10 hours/weekDifferentiation and Integrationchat
Final project
OSS University is project-focused. The assignments and exams for each course are to prepare you to use your knowledge to solve real-world problems.
After you've gotten through all of Core CS and the parts of Advanced CS relevant to you, you should think about a problem that you can solve using the knowledge you've acquired. Not only does real project work look great on a resume, but the project will also validate and consolidate your knowledge. You can create something entirely new, or you can find an existing project that needs help via websites like CodeTriage or First Timers Only.
Students who would like more guidance in creating a project may choose to use a series of project oriented courses. Here is a sample of options (many more are available, at this point you should be capable of identifying a series that is interesting and relevant to you):
CoursesDurationEffortPrerequisitesFullstack Open12 weeks15 hours/weekprogrammingModern Robotics (Specialization)26 weeks2-5 hours/weekfreshman-level physics, linear algebra, calculus, linear ordinary differential equationsData Mining (Specialization)30 weeks2-5 hours/weekmachine learningBig Data (Specialization)30 weeks3-5 hours/weeknoneInternet of Things (Specialization)30 weeks1-5 hours/weekstrong programmingCloud Computing (Specialization)30 weeks2-6 hours/weekC++ programmingData Science (Specialization)43 weeks1-6 hours/weeknoneFunctional Programming in Scala (Specialization)29 weeks4-5 hours/weekOne year programming experienceGame Design and Development with Unity 2020 (Specialization)6 months5 hours/weekprogramming, interactive design
Evaluation
Upon completing your final project:
Submit your project's information to PROJECTS via a pull request.
Put the OSSU-CS badge in the README of your repository!
Markdown:
[![Open Source Society University - Computer Science](https://img.shields.io/badge/OSSU-computer--science-blue.svg)](https://github.com/ossu/computer-science)
HTML:
<a href="https://github.com/ossu/computer-science"><img alt="Open Source Society University - Computer Science" src="https://img.shields.io/badge/OSSU-computer--science-blue.svg"></a>
Use our community channels to announce it to your fellow students.
Solicit feedback from your OSSU peers. You will not be "graded" in the traditional sense β everyone has their own measurements for what they consider a success. The purpose of the evaluation is to act as your first announcement to the world that you are a computer scientist and to get experience listening to feedback β both positive and negative.
The final project evaluation has a second purpose: to evaluate whether OSSU, through its community and curriculum, is successful in its mission to guide independent learners in obtaining a world-class computer science education.
Cooperative work
You can create this project alone or with other students! We love cooperative work! Use our channels to communicate with other fellows to combine and create new projects!
Which programming languages should I use?
My friend, here is the best part of liberty! You can use any language that you want to complete the final project.
The important thing is to internalize the core concepts and to be able to use them with whatever tool (programming language) that you wish.
Congratulations
After completing the requirements of the curriculum above, you will have completed the equivalent of a full bachelor's degree in Computer Science. Congratulations!
What is next for you? The possibilities are boundless and overlapping:
Look for a job as a developer!
Check out the readings for classic books you can read that will sharpen your skills and expand your knowledge.
Join a local developer meetup (e.g. via meetup.com).
Pay attention to emerging technologies in the world of software development:
Explore the actor model through Elixir, a new functional programming language for the web based on the battle-tested Erlang Virtual Machine!
Explore borrowing and lifetimes through Rust, a systems language which achieves memory- and thread-safety without a garbage collector!
Explore dependent type systems through Idris, a new Haskell-inspired language with unprecedented support for type-driven development.
Code of conduct
How to show your progress
Now that you have a copy of our official board, you just need to pass the cards to the Doing
column or Done
column as you progress in your study.
We also have labels to help you have more control through the process. The meaning of each of these labels is:
Main Curriculum
: cards with that label represent courses that are listed in our curriculum.Extra Resources
: cards with that label represent courses that were added by the student.Doing
: cards with that label represent courses the student is currently doing.Done
: cards with that label represent courses finished by the student. Those cards should also have the link for at least one project/article built with the knowledge acquired in such a course.Section
: cards with that label represent the section that we have in our curriculum. Those cards with theSection
label are only to help the organization of the Done column. You should put the Course's cards below its respective Section's card.
The intention of this board is to provide our students a way to track their progress, and also the ability to show their progress through a public page for friends, family, employers, etc. You can change the status of your board to be public or private.
Team
Eric Douglas: founder of OSSU
Josh Hanson: lead technical maintainer
Waciuma Wanjohi: lead academic maintainer
About
π Path to a free self-taught education in Computer Science!
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