Awesome

Awesome-AutoML

Curating a list of AutoML-related research, tools, projects and other resources

AutoML

AutoML is the tools and technology to use machine learning methods and processes to automate machine learning systems and make them more accessible. It existed for several decades so it's not a completely new idea.

Recent work by Google Brain and many others have re-kindled the enthusiasm of AutoML and some companies have already commercialized the technology. Thus, it has becomes one of the hosttest areas to look into.

There are many kinds of AutoML, including:

• Neural network architecture search
• Hyperparameter optimization
• Optimizer search
• Data augmentation search
• Learning to learn/Meta-learning
• And many more

Research papers

AutoML survey

• Neural architecture search: a survey 深度神经网络结构搜索综述 (Tang et al. 2021)
• AutoML to Date and Beyond: Challenges and Opportunities (Santu et al. 2020)
• A Comprehensive Survey of Neural Architecture Search: Challenges and Solutions (Ren et al. 2020)
• On Hyperparameter Optimization of Machine Learning Algorithms: Theory and Practice (Yang et al. 2020)
• Benchmark and Survey of Automated Machine Learning Frameworks (Zoller et al. 2019)
• AutoML: A Survey of the State-of-the-Art (He et al. 2019)
• A Survey on Neural Architecture Search (Wistuba et al. 2019)
• Neural Architecture Search: A Survey (Elsken et al. 2019)
• Taking Human out of Learning Applications: A Survey on Automated Machine Learning (Yao et al. 2018)

Neural Architecture Search

• Archon: An Architecture Search Framework for Inference-Time Techniques (Saad-Falcon. 2024)
• LayerNAS: Neural Architecture Search in Polynomial Complexity (Fan et al. 2023)
• EvoPrompting: Language Models for Code-Level Neural Architecture Search (Chen et al. 2023)
• Neural Architecture Search using Property Guided Synthesis (Jin et al. 2022)
• Data-Free Neural Architecture Search via Recursive Label Calibration (Liu et al. 2022)
• Searching for Efficient Neural Architectures for On-Device ML on Edge TPUs (Akin et al. 2022)
• Resource-Constrained Neural Architecture Search on Tabular Datasets (Yang et al. 2022)
• Searching for Fast Model Families on Datacenter Accelerators (Li et al. 2022)
• Towards the co-design of neural networks and accelerators (Zhou et al. 2022)
• Neural Architecture Search for Energy Efficient Always-on Audio Models (Speckhard et al. 2022)
• KNAS: Green Neural Architecture Search (Xu et al. 2021)
• Primer: Searching for Efficient Transformers for Language Modeling (So et al. 2021)
• NAS-BERT: Task-Agnostic and Adaptive-Size BERT Compression with Neural Architecture Search (Xu et al. 2021)
• Accelerating Neural Architecture Search for Natural Language Processing with Knowledge Distillation and Earth Mover's Distance (Li et al. 2021)
• AlphaNet: Improved Training of Supernets with Alpha-Divergence (Wang et al. 2021)
• AttentiveNAS: Improving Neural Architecture Search via Attentive Sampling (Wang et al. 2021)
• Speedy Performance Estimation for Neural Architecture Search (Ru et al. 2021)
• AutoFormer: Searching Transformers for Visual Recognition (Chen et al. 2021)
• NAAS: Neural Accelerator Architecture Search (Lin et al. 2021)
• ModularNAS: Towards Modularized and Reusable Neural Architecture Search (Lin et al. 2021)
• BossNAS: Exploring Hybrid CNN-transformers with Block-wisely Self-supervised Neural Architecture Search (Li et al. 2021)
• AutoReCon: Neural Architecture Search-based Reconstruction for Data-free Compression (Zhu et al. 2021)
• AutoSpace: Neural Architecture Search with Less Human Interference (Zhou et al. 2021)
• ReNAS:Relativistic Evaluation of Neural Architecture Search (Xu et al. 2021)
• Searching for Fast Model Families on Datacenter Accelerators (Li et al. 2021)
• Zen-NAS: A Zero-Shot NAS for High-Performance Deep Image Recognition (Lin et al. 2021)
• PyGlove: Symbolic Programming for Automated Machine Learning (Peng et al. 2021)
• DARTS-: Robustly Stepping out of Performance Collapse Without Indicators (Chu et al. 2021)
• NAS-DIP: Learning Deep Image Prior with Neural Architecture Search (Chen et al. 2020)
• AttentionNAS: Spatiotemporal Attention Cell Search for Video Classification (Wang et al. 2020)
• CurveLane-NAS: Unifying Lane-Sensitive Architecture Search and Adaptive Point Blending (Xu et al. 2020)
• Few-shot Neural Architecture Search (Zhao et al. 2020)
• Efficient Neural Architecture Search via Proximal Iterations (Yao et al. 2020)
• Cream of the Crop: Distilling Prioritized Paths For One-Shot Neural Architecture Search (Peng et al. 2020)
• How Does Supernet Help in Neural Architecture Search? (Zhang et al. 2020)
• CurveLane-NAS: Unifying Lane-Sensitive Architecture Search and Adaptive Point Blending (Xu et al. 2020)
• APQ: Joint Search for Network Architecture, Pruning and Quantization Policy (Wang et al. 2020)
• MCUNet: Tiny Deep Learning on IoT Devices (Lin et al. 2020)
• FBNetV2: Differentiable Neural Architecture Search for Spatial and Channel Dimensions (Wan et al. 2020)
• MobileDets: Searching for Object Detection Architectures for Mobile Accelerators (Xiong et al. 2020)
• Neural Architecture Transfer (Lu et al. 2020)
• APQ: Joint Search for Network Architecture, Pruning and Quantization Policy (Wang et al. 2020)
• When NAS Meets Robustness: In Search of Robust Architectures against Adversarial Attacks (Guo et al. 2020)
• Semi-Supervised Neural Architecture Search (Luo et al. 2020)
• MixPath: A Unified Approach for One-shot Neural Architecture Search (Chu et al. 2020)
• AutoML-Zero: Evolving Machine Learning Algorithms From Scratch (Real et al. 2020)
• Generative Teaching Networks: Accelerating Neural Architecture Search by Learning to Generate Synthetic Training Data (Such et al. 2019)
• CARS: Continuous Evolution for Efficient Neural Architecture Search (Yang et al. 2019)
• Meta-Learning of Neural Architectures for Few-Shot Learning (Elsken et al. 2019)
• Up to two billion times acceleration of scientific simulations with deep neural architecture search (Kasim et al. 2019)
• Efficient Forward Architecture Search (Hue et al. 2019)
• Towards Oracle Knowledge Distillation with Neural Architecture Search (Kang et al. 2019)
• Blockwisely Supervised Neural Architecture Search with Knowledge Distillation (Li et al. 2019)
• NAS-FPN: Learning Scalable Feature Pyramid Architecture for Object Detection (Ghiasi et al. 2019)
• Improving Keyword Spotting and Language Identification via Neural Architecture Search at Scale (Mazzawi et al. 2019)
• SpineNet: Learning Scale-Permuted Backbone for Recognition and Localization (Du et al. 2019)
• Efficient Neural Interaction Function Search for Collaborative Filtering (Yao et al. 2019)
• Evaluating the Search Phase of Neural Architecture Search (Sciuto et al. 2019)
• MixConv: Mixed Depthwise Convolutional Kernels (Tan et al. 2019)
• Multinomial Distribution Learning for Effective Neural Architecture Search (Zheng et al. 2019)
• SNR: Sub-Network Routing for Flexible Parameter Sharing in Multi-task Learning (Ma et al. 2019)
• PC-DARTS: Partial Channel Connections for Memory-Efficient Differentiable Architecture Search (Xu et al. 2019) - code
• Single Path One-Shot Neural Architecture Search with Uniform Sampling (Guo et al. 2019)
• AutoGAN: Neural Architecture Search for Generative Adversarial Networks (Gong et al. 2019)
• MixConv: Mixed Depthwise Convolutional Kernels (Tan et al. 2019)
• Tiny Video Networks (Piergiovanni et al. 2019)
• AssembleNet: Searching for Multi-Stream Neural Connectivity in Video Architectures (Ryoo et al. 2019)
• EfficientNet-EdgeTPU: Creating Accelerator-Optimized Neural Networks with AutoML (Gupta et al. 2019)
• EfficientNet: Rethinking Model Scaling for Convolutional Neural Networks (Tan et al. 2019)
• MoGA: Searching Beyond MobileNetV3 (Chu et al. 2019) - code
• Searching for MobileNetV3 (Howard et al. 2019)
• Auto-DeepLab: Hierarchical Neural Architecture Search for Semantic Image Segmentation (Liu et al. 2019)
• DetNAS: Backbone Search for Object Detection (Chen et al. 2019)
• Graph HyperNetworks for Neural Architecture Search (Zhang et al. 2019)
• Dynamic Distribution Pruning for Efficient Network Architecture Search (Zheng et al. 2019)
• FairNAS: Rethinking Evaluation Fairness of Weight Sharing Neural Architecture Search (Chu et al. 2019)
• SpArSe: Sparse Architecture Search for CNNs on Resource-Constrained Microcontrollers (Fedorov et al. 2019)
• EENA: Efficient Evolution of Neural Architecture (Zhu et al. 2019)
• Single Path One-Shot Neural Architecture Search with Uniform Sampling (Guo et al. 2019)
• InstaNAS: Instance-aware Neural Architecture Search (Cheng et al. 2019)
• ProxylessNAS: Direct Neural Architecture Search on Target Task and Hardware (Cai et al. 2019)
• NAS-Bench-101: Towards Reproducible Neural Architecture Search (Ying et al. 2019)
• Evolutionary Neural AutoML for Deep Learning (Liang et al. 2019)
• Fast, Accurate and Lightweight Super-Resolution with Neural Architecture Search (Chu et al. 2019)
• The Evolved Transformer (So et al. 2019)
• SNAS: Stochastic Neural Architecture Search (Xie et al. 2019)
• NeuNetS: An Automated Synthesis Engine for Neural Network Design (Sood et al. 2019)
• EAT-NAS: Elastic Architecture Transfer for Accelerating Large-scale Neural Architecture Search (Fang et al. 2019)
• Understanding and Simplifying One-Shot Architecture Search (Bender et al. 2018)
• Evolving Space-Time Neural Architectures for Videos (Piergiovanni et al. 2018)
• IRLAS: Inverse Reinforcement Learning for Architecture Search (Guo et al. 2018)
• Neural Architecture Search with Bayesian Optimisation and Optimal Transport (Kandasamy et al. 2018)
• Path-Level Network Transformation for Efficient Architecture Search (Cai et al. 2018)
• BlockQNN: Efficient Block-wise Neural Network Architecture Generation (Zhong et al. 2018)
• Stochastic Adaptive Neural Architecture Search for Keyword Spotting (Véniat et al. 2018)
• Task-Driven Convolutional Recurrent Models of the Visual System (Nayebi et al. 2018)
• Neural Architecture Optimization (Luo et al. 2018)
• MnasNet: Platform-Aware Neural Architecture Search for Mobile (Tan et al. 2018)
• Neural Architecture Search: A Survey (Elsken et al. 2018)
• MONAS: Multi-Objective Neural Architecture Search using Reinforcement Learning (Hsu et al. 2018)
• NetAdapt: Platform-Aware Neural Network Adaptation for Mobile Applications (Yang et al. 2018)
• Auto-Meta: Automated Gradient Based Meta Learner Search (Kim et al. 2018)
• MorphNet: Fast & Simple Resource-Constrained Structure Learning of Deep Networks (Gordon et al. 2018)
• DPP-Net: Device-aware Progressive Search for Pareto-optimal Neural Architectures (Dong et al. 2018)
• Searching Toward Pareto-Optimal Device-Aware Neural Architectures (Cheng et al. 2018)
• Differentiable Architecture Search (Liu et al. 2018)
• Regularized Evolution for Image Classifier Architecture Search (Real et al. 2018)
• Efficient Architecture Search by Network Transformation (Cai et al. 2017)
• Large-Scale Evolution of Image Classifiers (Real et al. 2017)
• Progressive Neural Architecture Search (Liu et al. 2017)
• AdaNet: Adaptive Structural Learning of Artificial Neural Networks (Cortes et al. 2017)
• Learning Transferable Architectures for Scalable Image Recognition (Zoph et al. 2017)

Federated Neural Architecture Search

• Federated Neural Architecture Search (Xu et al 2020)
• Direct Federated Neural Architecture Search (Garg et al 2020)

Neural Architecture Search benchmark

• NAS-Bench-101: Towards Reproducible Neural Architecture Search (Ying et al. 2019) - code

Neural Optimizatizer Search

• Symbolic Discovery of Optimization Algorithms (Chen et al. 2017)
• Neural Optimizer Search with Reinforcement Learning (Bello et al. 2017)

Activation function Search

• Searching for Activation Functions (Ramachandran et al. 2017)

AutoAugment

• MetaAugment: Sample-Aware Data Augmentation Policy Learning (Zhou et al. 2020)
• SpecAugment: A Simple Data Augmentation Method for Automatic Speech Recognition (Park et al. 2019)
• RandAugment: Practical automated data augmentation with a reduced search space (Cubuk et al. 2019)
• Learning Data Augmentation Strategies for Object Detection (Zoph et al. 2019)
• Fast AutoAugment (Lim et al. 2019)
• AutoAugment: Learning Augmentation Policies from Data (Cubuk et al. 2018)

AutoDropout

• AutoDropout: Learning Dropout Patterns to Regularize Deep Networks (Pham et al. 2020)

AutoDistill

• AutoDistill: an End-to-End Framework to Explore and Distill Hardware-Efficient Language Models (Zhang et al. 2022)

Learning to learn/Meta-learning

• ES-MAML: Simple Hessian-Free Meta Learning (Song et al. 2019)
• Learning to Learn with Gradients (Chelsea Finn PhD disseration 2018)
• On First-Order Meta-Learning Algorithms (OpenAI Reptile by Nichol et al. 2018)
• Model-Agnostic Meta-Learning for Fast Adaptation of Deep Networks (MAML by Finn et al. 2017)
• A sample neural attentive meta-learner (Mishra et al. 2017)
• Learning to Learn without Gradient Descent by Gradient Descent (Chen et al. 2016)
• Learning to learn by gradient descent by gradient descent (Andrychowicz et al. 2016)
• Learning to reinforcement learn (Wang et al. 2016)
• RL^2: Fast Reinforcement Learning via Slow Reinforcement Learning (Duan et al. 2016)

Hyperparameter optimization

• OptFormer: Towards Universal Hyperparameter Optimization with Transformers (Chen et al. 2022)
• Frugal Optimization for Cost-related Hyperparameters (Qingyun Wu, Chi Wang, Silu Huang. AAAI 2021)
• Economical Hyperparameter Optimization With Blended Search Strategy (Chi Wang, Qingyun Wu, Silu Huang, Amin Saied. ICLR 2021)
• ChaCha for Online AutoML (Qingyun Wu, Chi Wang, John Langford, Paul Mineiro and Marco Rossi. ICML 2021)
• Using a thousand optimization tasks to learn hyperparameter search strategies (Metz et al. 2020)
• AutoNE: Hyperparameter Optimization for Massive Network Embedding (Tu et al. 2019)
• Population Based Training of Neural Networks (Jaderberg et al. 2017)
• Google Vizier: A Service for Black-Box Optimization (Golovin et al. 2017)
• Hyperband: A Novel Bandit-Based Approach to Hyperparameter Optimization (Li et al. 2016)
• Practical Bayesian Optimization of Machine Learning Algorithms (Snoek et al. 2012)
• Random Search for Hyper-Parameter Optimization (Bergstra et al. 2012)

Automatic feature selection

• Deep Feature Synthesis: Towards Automating Data Science Endeavors (Kanter et al. 2017)
• ExploreKit: Automatic Feature Generation and Selection (Katz et al. 2016)

Recommendation systems

• Rankitect: Ranking Architecture Search Battling World-class Engineers at Meta Scale (Wen et al. 2023)
• AutoML for Deep Recommender Systems: A Survey (Zheng et al. 2022)
• Automated Machine Learning for Deep Recommender Systems: A Survey (Chen et al. 2022)
• AutoEmb: Automated Embedding Dimensionality Search in Streaming Recommendations (Zhao et al. 2021)
• AutoDim: Field-aware Embedding Dimension Searchin Recommender Systems (Zhao et al. 2021)
• Learnable Embedding Sizes for Recommender Systems (Liu et al. 2021)
• AMER: Automatic Behavior Modeling and Interaction Exploration in Recommender System (Zhao et al. 2021)
• AIM: Automatic Interaction Machine for Click-Through Rate Prediction (Zhu et al. 2021)
• Towards Automated Neural Interaction Discovery for Click-Through Rate Prediction (Song et al. 2020)
• AutoFIS: Automatic Feature Interaction Selection in Factorization Models for Click-Through Rate Prediction (Liu et al. 2020)
• AutoFeature: Searching for Feature Interactions and Their Architectures for Click-through Rate Prediction (Khawar et al. 2020)
• AutoGroup: Automatic Feature Grouping for Modelling Explicit High-Order Feature Interactions in CTR Prediction (Liu et al. 2020)
• Neural Input Search for Large Scale Recommendation Models (Joglekar et al. 2019)

Model compression

• AMC: AutoML for Model Compression and Acceleration on Mobile Devices (He et al. 2018)

Quantization

• HAQ: Hardware-Aware Automated Quantization with Mixed Precision (Wang et al. 2018)

Tech to speech

• LightSpeech: Lightweight and Fast Text to Speech with Neural Architecture Search (Luo et al. 2021)

Bandits

• AutoML for Contextual Bandits (Dutta et al. 2019)

Reinforcement learning

• Automated Reinforcement Learning (AutoRL): A Survey and Open Problems (Parker-Holder et al. 2022)
• Designing Neural Network Architectures using Reinforcement Learning (Baker et al. 2016)
• Neural Architecture Search with Reinforcement Learning (Zoph and Le. 2016)

Graph neural network

• AutoGL: A Library for Automated Graph Learning (Guan et al. 2021)
• AutoGraph: Automated Graph Neural Network (Li et al. 2020)

Quantum computing

• QuantumNAS: Noise-Adaptive Search for Robust Quantum Circuits (Wang et al. 2022)
• Differentiable Quantum Architecture Search (Zhang et al. 2020)

Prompt search

• Large Language Models Are Human-Level Prompt Engineers (Zhou et al. 2022)
• Neural Prompt Search (Zhang et al. 2022)
• AUTOPROMPT: Eliciting Knowledge from Language Models with Automatically Generated Prompts (Shin et al. 2020)

LLM

• LLaMA-NAS: Efficient Neural Architecture Search for Large Language Models (Sarah et al. 2024)
• 15 times Faster than Llama 2: Introducing DeciLM – NAS-Generated LLM with Variable GQA (Deci Research 2023)

Tools and projects

• Falcon: A Lightweight AutoML Library
• MindWare: Efficient Open-source AutoML System
• AutoDL: automated deep learning
• AutoGL: An autoML framework & toolkit for machine learning on graphs
• MLBox: a powerful Automated Machine Learning python library
• FLAML: Fast and lightweight AutoML (paper)
• Hypernets: A General Automated Machine Learning Framework
• Cooka: a lightweight and visualization toolkit
• Vegas: an AutoML algorithm tool chain by Huawei Noah's Arb Lab
• TransmogrifAI: an AutoML library written in Scala that runs on top of Apache Spark
• Model Search: a framework that implements AutoML algorithms for model architecture search at scale
• AutoGluon: AutoML Toolkit for Deep Learning
• hyperunity: A toolset for black-box hyperparameter optimisation
• auptimizer: An automatic ML model optimization tool
• Keras Tuner: Hyperparameter tuning for humans
• Torchmeta: A Meta-Learning library for PyTorch
• learn2learn: PyTorch Meta-learning Framework for Researchers
• Auto-PyTorch: Automatic architecture search and hyperparameter optimization for PyTorch
• ATM: Auto Tune Models: A multi-tenant, multi-data system for automated machine learning (model selection and tuning)
• Adanet: Fast and flexible AutoML with learning guarantees: Tensorflow package for AdaNet
• Microsoft Neural Network Intelligence (NNI): An open source AutoML toolkit for neural architecture search and hyper-parameter tuning
• Dragonfly: An open source python library for scalable Bayesian optimisation
• H2O AutoML: Automatic Machine Learning by H2O.ai
• Kubernetes Katib: hyperparameter Tuning on Kubernetes inspired by Google Vizier
• Ray Tune: Scalable Hyperparameter Tuning¶
• TransmogrifAI: automated machine learning for structured data by Salesforce
• Advisor: open-source implementation of Google Vizier for hyper parameters tuning
• AutoKeras: AutoML library by Texas A&M University using Bayesian optimization
• AutoSklearn: an automated machine learning toolkit and a drop-in replacement for a scikit-learn estimator
• Ludwig: a toolbox built on top of TensorFlow that allows to train and test deep learning models without the need to write code
• AutoWeka: hyperparameter search for Weka
• automl-gs: Provide an input CSV and a target field to predict, generate a model + code to run it
• SMAC: Sequential Model-based Algorithm Configuration
• Hyperopt-sklearn: hyper-parameter optimization for sklearn
• Spearmint: a software package to perform Bayesian optimization
• TPOT: one of the very first AutoML methods and open-source software packages
• MOE: a global, black box optimization engine for real world metric optimization by Yelp
• Hyperband: open source code for tuning hyperparams with Hyperband
• Optuna: define-by-run hypterparameter optimization framework
• RoBO: a Robust Bayesian Optimization framework
• HpBandSter: a framework for distributed hyperparameter optimization
• HPOlib2: a library for hyperparameter optimization and black box optimization benchmarks
• Hyperopt: distributed Asynchronous Hyperparameter Optimization in Python
• REMBO: Bayesian optimization in high-dimensions via random embedding
• ExploreKit: a framework for automated feature generation
• FeatureTools: An open source python framework for automated feature engineering
• EvalML: An open source python library for AutoML
• PocketFlow: use AutoML to do model compression (open sourced by Tencent)
• DEvol (DeepEvolution): a basic proof of concept for genetic architecture search in Keras
• mljar-supervised: AutoML with explanations and markdown reports
• Determined: scalable deep learning training platform with integrated hyperparameter tuning support; includes Hyperband, PBT, and other search methods
• AutoGL: an autoML framework & toolkit for machine learning on graphs)
• FEDOT: AutoML framework for the design of composite pipelines
• NASGym: a proof-of-concept OpenAI Gym environment for Neural Architecture Search (NAS)
• Archai: a platform for Neural Network Search (NAS) that allows you to generate efficient deep networks for your applications
• autoBOT: An autoML system for automated text classification exploiting representation evolution
• autoai: A framework to find the best performing AI/ML model for any AI problem

Benchmarks

• OpenML AutoML benchmarking framework

Commercial products

• deci.ai AutoNAC: Automated Neural Architecture Construction (AutoNAC™)
• Databricks AutoML: Augment experts. Empower citizen data scientists
• Abacus.AI: Effortlessly Embed Cutting-Edge AI Into Your Apps
• Syne Tune: state-of-the-art distributed hyperparameter optimizers (HPO)
• Amazon SageMaker AutoPilot
• Google Cloud AutoML
• Google Cloud ML Hyperparameter Turning
• Microsoft Azure Machine Learning Studio
• comet.ml
• SigOpt
• mljar.com
• Weights and Biases
• Qeexo AutoML

Blog posts

• YOLO-NAS by Deci Achieves State-of-the-Art Performance on Object Detection Using Neural Architecture Search
• Efficient Multi-Objective Neural Architecture Search with Ax
• AutoML Solutions: What I Like and Don’t Like About AutoML as a Data Scientist
• Improved On-Device ML on Pixel 6, with Neural Architecture Search
• Neural Architecture Search
• How we use AutoML, Multi-task learning and Multi-tower models for Pinterest Ads
• A Conversation With Quoc Le: The AI Expert Behind Google AutoML
• fast.ai: An Opinionated Introduction to AutoML and Neural Architecture Search
• Introducing AdaNet: Fast and Flexible AutoML with Learning Guarantees
• Using Evolutionary AutoML to Discover Neural Network Architectures
• Improving Deep Learning Performance with AutoAugment
• AutoML for large scale image classification and object detection
• Using Machine Learning to Discover Neural Network Optimizers
• Using Machine Learning to Explore Neural Network Architecture
• Machine Learning Hyperparameter Optimization with Argo

Courses

• EfficientML.ai Lecture 7 - Neural Architecture Search (Part I) (MIT 6.5940, Fall 2023)
• [EfficientML.ai Lecture 8 - Neural Architecture Search (Part II) (MIT 6.5940, Fall 2023)(https://www.youtube.com/watch?v=EFpGQoDQ7JI)

Presentations

• ICML 2019 Tutorial: Recent Advances in Population-Based Search for Deep Neural Networks by Evolving AI Lab
• Automatic Machine Learning by Frank Hutter and Joaquin Vanschoren
• Advanced Machine Learning Day 3: Neural Architecture Search by Debadeepta Dey (MSR)
• Neural Architecture Search by Quoc Le (Google Brain)
• AutoML Showdown: Google vs Amazon vs Microsoft by Roboflow

Books

• AUTOML: METHODS, SYSTEMS, CHALLENGES
• Hands-On Meta Learning with Python: Meta learning using one-shot learning, MAML, Reptile, and Meta-SGD with TensorFlow - repo
• Automated Machine Learning in Action- A book that introduces autoML with AutoKreas and Keras Tuner

Competitions, workshops and conferences

• AutoML-Conf 2022
• NIPS 2018 3rd AutoML Challenge: AutoML for Lifelong Machine Learning
• AutoML Workshop in ICML

Other curated resources on AutoML

• Literature on Neural Architecture Search
• Awesome-AutoML-Papers

Practical applications

• AutoML: Automating the design of machine learning models for autonomous driving by Waymo