At DAIR.AI we ❤️ open education. In this repo we share some of the best and most recent machine learning courses available on YouTube.

Machine Learning

• Stanford CS229: Machine Learning
• Making Friends with Machine Learning
• Applied Machine Learning
• Introduction to Machine Learning (Tübingen)
• Machine Learning Lecture (Stefan Harmeling)
• Statistical Machine Learning (Tübingen)
• Probabilistic Machine Learning

Deep Learning

• Neural Networks: Zero to Hero
• MIT: Deep Learning for Art, Aesthetics, and Creativity
• Stanford CS230: Deep Learning (2018)
• Introduction to Deep Learning (MIT)
• CMU Introduction to Deep Learning (11-785)
• Deep Learning: CS 182
• Deep Unsupervised Learning
• NYU Deep Learning SP21
• Foundation Models 🆕
• Deep Learning (Tübingen)

Practical ML

• Full Stack Deep Learning
• Practical Deep Learning for Coders
• Stanford MLSys Seminars
• Machine Learning Engineering for Production (MLOps)

NLP

• Stanford CS25 - Transformers United
• NLP Course (Hugging Face)
• CS224N: Natural Language Processing with Deep Learning
• CMU Neural Networks for NLP
• CS224U: Natural Language Understanding
• CMU Advanced NLP 2021/2022 🆕
• Multilingual NLP
• Advanced NLP

Computer Vision

• CS231N: Convolutional Neural Networks for Visual Recognition
• Deep Learning for Computer Vision
• Deep Learning for Computer Vision (DL4CV)

Reinforcement Learning

• Deep Reinforcement Learning
• Reinforcement Learning Lecture Series (DeepMind)
• Reinforcement Learning (Polytechnique Montreal, Fall 2021)
• Foundations of Deep RL
• Stanford CS234: Reinforcement Learning

Graph ML

• Machine Learning with Graphs (Stanford)
• AMMI Geometric Deep Learning Course

Multi-Task Learning

• Multi-Task and Meta-Learning (Stanford)

Others

• MIT Deep Learning in Life Sciences
• Self-Driving Cars (Tübingen)
• Advanced Robotics (Berkeley)

To learn some of the basics of ML:

• Linear Regression and Gradient Descent
• Logistic Regression
• Naive Bayes
• SVMs
• Kernels
• Decision Trees
• Introduction to Neural Networks
• Debugging ML Models ...

🔗 Link to Course

A series of mini lectures covering various introductory topics in ML:

• Explainability in AI
• Classification vs. Regression
• Precession vs. Recall
• Statistical Significance
• Clustering and K-means
• Ensemble models ...

🔗 Link to Course

Course providing an in-depth overview of neural networks.

• Backpropagation
• Spelled-out intro to Language Modeling
• Activation and Gradients
• Becoming a Backprop Ninja

🔗 Link to Course

Covers the application of deep learning for art, aesthetics, and creativity.

• Nostalgia -> Art -> Creativity -> Evolution as Data + Direction
• Efficient GANs
• Explorations in AI for Creativity
• Neural Abstractions
• Easy 3D Content Creation with Consistent Neural Fields ...

🔗 Link to Course

Covers the foundations of deep learning, how to build different neural networks(CNNs, RNNs, LSTMs, etc...), how to lead machine learning projects, and career advice for deep learning practitioners.

• Deep Learning Intuition
• Adversarial examples - GANs
• Full-cycle of a Deep Learning Project
• AI and Healthcare
• Deep Learning Strategy
• Interpretability of Neural Networks
• Career Advice and Reading Research Papers
• Deep Reinforcement Learning

🔗 Link to Course 🔗 Link to Materials

To learn some of the most widely used techniques in ML:

• Optimization and Calculus
• Overfitting and Underfitting
• Regularization
• Monte Carlo Estimation
• Maximum Likelihood Learning
• Nearest Neighbours
• ...

🔗 Link to Course

The course serves as a basic introduction to machine learning and covers key concepts in regression, classification, optimization, regularization, clustering, and dimensionality reduction.

• Linear regression
• Logistic regression
• Regularization
• Boosting
• Neural networks
• PCA
• Clustering
• ...

🔗 Link to Course

Covers many fundamental ML concepts:

• Bayes rule
• From logic to probabilities
• Distributions
• Matrix Differential Calculus
• PCA
• K-means and EM
• Causality
• Gaussian Processes
• ...

🔗 Link to Course

The course covers the standard paradigms and algorithms in statistical machine learning.

• KNN
• Bayesian decision theory
• Convex optimization
• Linear and ridge regression
• Logistic regression
• SVM
• Random Forests
• Boosting
• PCA
• Clustering
• ...

🔗 Link to Course

This course covers topics such as how to:

• Build and train deep learning models for computer vision, natural language processing, tabular analysis, and collaborative filtering problems
• Create random forests and regression models
• Deploy models
• Use PyTorch, the world’s fastest growing deep learning software, plus popular libraries like fastai and Hugging Face
• Foundations and Deep Dive to Diffusion Models
• ...

🔗 Link to Course - Part 1

🔗 Link to Course - Part 2

A seminar series on all sorts of topics related to building machine learning systems.

🔗 Link to Lectures

Specialization course on MLOPs by Andrew Ng.

🔗 Link to Lectures

To learn some of the latest graph techniques in machine learning:

• PageRank
• Matrix Factorizing
• Node Embeddings
• Graph Neural Networks
• Knowledge Graphs
• Deep Generative Models for Graphs
• ...

🔗 Link to Course

To learn the probabilistic paradigm of ML:

• Reasoning about uncertainty
• Continuous Variables
• Sampling
• Markov Chain Monte Carlo
• Gaussian Distributions
• Graphical Models
• Tuning Inference Algorithms
• ...

🔗 Link to Course

To learn some of the fundamentals of deep learning:

• Introduction to Deep Learning

🔗 Link to Course

The course starts off gradually from MLPs (Multi Layer Perceptrons) and then progresses into concepts like attention and sequence-to-sequence models.

🔗 Link to Course
🔗 Lectures
🔗 Tutorials/Recitations

To learn some of the widely used techniques in deep learning:

• Machine Learning Basics
• Error Analysis
• Optimization
• Backpropagation
• Initialization
• Batch Normalization
• Style transfer
• Imitation Learning
• ...

🔗 Link to Course

To learn the latest and most widely used techniques in deep unsupervised learning:

• Autoregressive Models
• Flow Models
• Latent Variable Models
• Self-supervised learning
• Implicit Models
• Compression
• ...

🔗 Link to Course

To learn some of the advanced techniques in deep learning:

• Neural Nets: rotation and squashing
• Latent Variable Energy Based Models
• Unsupervised Learning
• Generative Adversarial Networks
• Autoencoders
• ...

🔗 Link to Course

To learn about foundation models like GPT-3, CLIP, Flamingo, Codex, and DINO.

🔗 Link to Course

This course introduces the practical and theoretical principles of deep neural networks.

• Computation graphs
• Activation functions and loss functions
• Training, regularization and data augmentation
• Basic and state-of-the-art deep neural network architectures including convolutional networks and graph neural networks
• Deep generative models such as auto-encoders, variational auto-encoders and generative adversarial networks
• ...

🔗 Link to Course

This course consists of lectures focused on Transformers, providing a deep dive and their applications

• Introduction to Transformers
• Transformers in Language: GPT-3, Codex
• Applications in Vision
• Transformers in RL & Universal Compute Engines
• Scaling transformers
• Interpretability with transformers
• ...

🔗 Link to Course

Learn about different NLP concepts and how to apply language models and Transformers to NLP:

• What is Transfer Learning?
• BPE Tokenization
• Batching inputs
• Fine-tuning models
• Text embeddings and semantic search
• Model evaluation
• ...

🔗 Link to Course

To learn the latest approaches for deep learning based NLP:

• Dependency parsing
• Language models and RNNs
• Question Answering
• Transformers and pretraining
• Natural Language Generation
• T5 and Large Language Models
• Future of NLP
• ...

🔗 Link to Course

To learn the latest neural network based techniques for NLP:

• Language Modeling
• Efficiency tricks
• Conditioned Generation
• Structured Prediction
• Model Interpretation
• Advanced Search Algorithms
• ...

🔗 Link to Course

To learn the latest concepts in natural language understanding:

• Grounded Language Understanding
• Relation Extraction
• Natural Language Inference (NLI)
• NLU and Neural Information Extraction
• Adversarial testing
• ...

🔗 Link to Course

To learn:

• Basics of modern NLP techniques
• Multi-task, Multi-domain, multi-lingual learning
• Prompting + Sequence-to-sequence pre-training
• Interpreting and Debugging NLP Models
• Learning from Knowledge-bases
• Adversarial learning
• ...

🔗 Link to 2021 Edition

🔗 Link to 2022 Edition

To learn the latest concepts for doing multilingual NLP:

• Typology
• Words, Part of Speech, and Morphology
• Advanced Text Classification
• Machine Translation
• Data Augmentation for MT
• Low Resource ASR
• Active Learning
• ...

🔗 Link to 2020 Course

🔗 Link to 2022 Course

To learn advanced concepts in NLP:

• Attention Mechanisms
• Transformers
• BERT
• Question Answering
• Model Distillation
• Vision + Language
• Ethics in NLP
• Commonsense Reasoning
• ...

🔗 Link to Course

Stanford's Famous CS231n course. The videos are only available for the Spring 2017 semester. The course is currently known as Deep Learning for Computer Vision, but the Spring 2017 version is titled Convolutional Neural Networks for Visual Recognition.

• Image Classification
• Loss Functions and Optimization
• Introduction to Neural Networks
• Convolutional Neural Networks
• Training Neural Networks
• Deep Learning Software
• CNN Architectures
• Recurrent Neural Networks
• Detection and Segmentation
• Visualizing and Understanding
• Generative Models
• Deep Reinforcement Learning

🔗 Link to Course 🔗 Link to Materials

To learn some of the fundamental concepts in CV:

• Introduction to deep learning for CV
• Image Classification
• Convolutional Networks
• Attention Networks
• Detection and Segmentation
• Generative Models
• ...

🔗 Link to Course

To learn modern methods for computer vision:

• CNNs
• Advanced PyTorch
• Understanding Neural Networks
• RNN, Attention and ViTs
• Generative Models
• GPU Fundamentals
• Self-Supervision
• Neural Rendering
• Efficient Architectures

🔗 Link to Course

To learn about concepts in geometric deep learning:

• Learning in High Dimensions
• Geometric Priors
• Grids
• Manifolds and Meshes
• Sequences and Time Warping
• ...

🔗 Link to Course

To learn the latest concepts in deep RL:

• Intro to RL
• RL algorithms
• Real-world sequential decision making
• Supervised learning of behaviors
• Deep imitation learning
• Cost functions and reward functions
• ...

🔗 Link to Course

The Deep Learning Lecture Series is a collaboration between DeepMind and the UCL Centre for Artificial Intelligence.

• Introduction to RL
• Dynamic Programming
• Model-free algorithms
• Deep reinforcement learning
• ...

🔗 Link to Course

To learn full-stack production deep learning:

• ML Projects
• Infrastructure and Tooling
• Experiment Managing
• Troubleshooting DNNs
• Data Management
• Data Labeling
• Monitoring ML Models
• Web deployment
• ...

🔗 Link to Course

Covers the fundamental concepts of deep learning

• Single-layer neural networks and gradient descent
• Multi-layer neural networks and backpropagation
• Convolutional neural networks for images
• Recurrent neural networks for text
• Autoencoders, variational autoencoders, and generative adversarial networks
• Encoder-decoder recurrent neural networks and transformers
• PyTorch code examples

🔗 Link to Course 🔗 Link to Materials

Covers the most dominant paradigms of self-driving cars: modular pipeline-based approaches as well as deep-learning based end-to-end driving techniques.

• Camera, lidar and radar-based perception
• Localization, navigation, path planning
• Vehicle modeling/control
• Deep Learning
• Imitation learning
• Reinforcement learning

🔗 Link to Course

Designing autonomous decision making systems is one of the longstanding goals of Artificial Intelligence. Such decision making systems, if realized, can have a big impact in machine learning for robotics, game playing, control, health care to name a few. This course introduces Reinforcement Learning as a general framework to design such autonomous decision making systems.

• Introduction to RL
• Multi-armed bandits
• Policy Gradient Methods
• Contextual Bandits
• Finite Markov Decision Process
• Dynamic Programming
• Policy Iteration, Value Iteration
• Monte Carlo Methods
• ...

🔗 Link to Course 🔗 Link to Materials

A mini 6-lecture series by Pieter Abbeel.

• MDPs, Exact Solution Methods, Max-ent RL
• Deep Q-Learning
• Policy Gradients and Advantage Estimation
• TRPO and PPO
• DDPG and SAC
• Model-based RL

🔗 Link to Course

Covers topics from basic concepts of Reinforcement Learning to more advanced ones:

• Markov decision processes & planning
• Model-free policy evaluation
• Model-free control
• Reinforcement learning with function approximation & Deep RL
• Policy Search
• Exploration
• ...

🔗 Link to Course 🔗 Link to Materials

This is a graduate-level course covering different aspects of deep multi-task and meta learning.

• Multi-task learning, transfer learning basics
• Meta-learning algorithms
• Advanced meta-learning topics
• Multi-task RL, goal-conditioned RL
• Meta-reinforcement learning
• Hierarchical RL
• Lifelong learning
• Open problems

🔗 Link to Course 🔗 Link to Materials

A course introducing foundations of ML for applications in genomics and the life sciences more broadly.

• Interpreting ML Models
• DNA Accessibility, Promoters and Enhancers
• Chromatin and gene regulation
• Gene Expression, Splicing
• RNA-seq, Splicing
• Single cell RNA-sequencing
• Dimensionality Reduction, Genetics, and Variation
• Drug Discovery
• Protein Structure Prediction
• Protein Folding
• Imaging and Cancer
• Neuroscience

🔗 Link to Course

🔗 Link to Materials

This is course is from Peter Abbeel and covers a review on reinforcement learning and continues to applications in robotics.

• MDPs: Exact Methods
• Discretization of Continuous State Space MDPs
• Function Approximation / Feature-based Representations
• LQR, iterative LQR / Differential Dynamic Programming
• ...

🔗 Link to Course 🔗 Link to Materials

Reach out on Twitter if you have any questions.

If you are interested to contribute, feel free to open a PR with a link to the course. It will take a bit of time, but I have plans to do many things with these individual lectures. We can summarize the lectures, include notes, provide additional reading material, include difficulty of content, etc.

You can now find ML Course notes here.