‘MoE NN’ tag

Gwern Branwen

See Also
Links
Miscellaneous
Bibliography

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Links

“Mixture of Parrots: Experts Improve Memorization More Than Reasoning”, Jelassi et al 2024

Mixture of Parrots: Experts improve memorization more than reasoning

“Upcycling Large Language Models into Mixture of Experts”, He et al 2024

Upcycling Large Language Models into Mixture of Experts

“Stretching Each Dollar: Diffusion Training from Scratch on a Micro-Budget”, Sehwag et al 2024

Stretching Each Dollar: Diffusion Training from Scratch on a Micro-Budget

“Anthropic’s Latest Claude AI Model Pulls ahead of Rivals from OpenAI and Google”, Knight 2024

Anthropic’s latest Claude AI model pulls ahead of rivals from OpenAI and Google

“JetMoE: Reaching LLaMA-2 Performance With 0.1M Dollars”, Shen et al 2024

JetMoE: Reaching LLaMA-2 Performance with 0.1M Dollars

“Physics of Language Models: Part 3.3, Knowledge Capacity Scaling Laws”, Allen-Zhu & Li 2024

Physics of Language Models: Part 3.3, Knowledge Capacity Scaling Laws

“Mixture-Of-Depths: Dynamically Allocating Compute in Transformer-Based Language Models”, Raposo et al 2024

Mixture-of-Depths: Dynamically allocating compute in transformer-based language models

“MM1: Methods, Analysis & Insights from Multimodal LLM Pre-Training”, McKinzie et al 2024

MM1: Methods, Analysis & Insights from Multimodal LLM Pre-training

“Mastering Text, Code and Math Simultaneously via Fusing Highly Specialized Language Models”, Ding et al 2024

Mastering Text, Code and Math Simultaneously via Fusing Highly Specialized Language Models

“MoE-Mamba: Efficient Selective State Space Models With Mixture of Experts”, Pióro et al 2024

MoE-Mamba: Efficient Selective State Space Models with Mixture of Experts

“Mixtral of Experts”, Jiang et al 2024

Mixtral of Experts

“Fast Inference of Mixture-Of-Experts Language Models With Offloading”, Eliseev & Mazur 2023

Fast Inference of Mixture-of-Experts Language Models with Offloading

“LoRAMoE: Revolutionizing Mixture of Experts for Maintaining World Knowledge in Language Model Alignment”, Dou et al 2023

LoRAMoE: Revolutionizing Mixture of Experts for Maintaining World Knowledge in Language Model Alignment

“SwitchHead: Accelerating Transformers With Mixture-Of-Experts Attention”, Csordás et al 2023

SwitchHead: Accelerating Transformers with Mixture-of-Experts Attention

“Exponentially Faster Language Modeling”, Belcak & Wattenhofer 2023

Exponentially Faster Language Modeling

“Sparse Universal Transformer”, Tan et al 2023

Sparse Universal Transformer

“Fast Feedforward Networks”, Belcak & Wattenhofer 2023

Fast Feedforward Networks

“Non-Determinism in GPT-4 Is Caused by Sparse MoE”, 152334H 2023

Non-determinism in GPT-4 is caused by Sparse MoE

“From Sparse to Soft Mixtures of Experts”, Puigcerver et al 2023

From Sparse to Soft Mixtures of Experts

“Brainformers: Trading Simplicity for Efficiency”, Zhou et al 2023

Brainformers: Trading Simplicity for Efficiency

“CodeCompose: A Large-Scale Industrial Deployment of AI-Assisted Code Authoring”, Murali et al 2023

CodeCompose: A Large-Scale Industrial Deployment of AI-assisted Code Authoring

“Bridging Discrete and Backpropagation: Straight-Through and Beyond”, Liu et al 2023

Bridging Discrete and Backpropagation: Straight-Through and Beyond

“Scaling Expert Language Models With Unsupervised Domain Discovery”, Gururangan et al 2023

Scaling Expert Language Models with Unsupervised Domain Discovery

“Sparse MoE As the New Dropout: Scaling Dense and Self-Slimmable Transformers”, Chen et al 2023

Sparse MoE as the New Dropout: Scaling Dense and Self-Slimmable Transformers

“AltUp: Alternating Updates for Efficient Transformers”, Baykal et al 2023

AltUp: Alternating Updates for Efficient Transformers

“Sparse Upcycling: Training Mixture-Of-Experts from Dense Checkpoints”, Komatsuzaki et al 2022

Sparse Upcycling: Training Mixture-of-Experts from Dense Checkpoints

“MegaBlocks: Efficient Sparse Training With Mixture-Of-Experts”, Gale et al 2022

MegaBlocks: Efficient Sparse Training with Mixture-of-Experts

“Who Says Elephants Can’t Run: Bringing Large Scale MoE Models into Cloud Scale Production”, Kim et al 2022

Who Says Elephants Can’t Run: Bringing Large Scale MoE Models into Cloud Scale Production

“EDiff-I: Text-To-Image Diffusion Models With an Ensemble of Expert Denoisers”, Balaji et al 2022

eDiff-I: Text-to-Image Diffusion Models with an Ensemble of Expert Denoisers

“AutoMoE: Neural Architecture Search for Efficient Sparsely Activated Transformers”, Jawahar et al 2022

AutoMoE: Neural Architecture Search for Efficient Sparsely Activated Transformers

“A Review of Sparse Expert Models in Deep Learning”, Fedus et al 2022

A Review of Sparse Expert Models in Deep Learning

“Scaling Laws vs Model Architectures: How Does Inductive Bias Influence Scaling?”, Tay et al 2022

Scaling Laws vs Model Architectures: How does Inductive Bias Influence Scaling?

“MoEC: Mixture of Expert Clusters”, Xie et al 2022

MoEC: Mixture of Expert Clusters

“Beyond the Imitation Game: Quantifying and Extrapolating the Capabilities of Language Models”, Srivastava et al 2022

Beyond the Imitation Game: Quantifying and extrapolating the capabilities of language models

“Uni-Perceiver-MoE: Learning Sparse Generalist Models With Conditional MoEs”, Zhu et al 2022

Uni-Perceiver-MoE: Learning Sparse Generalist Models with Conditional MoEs

“Tutel: Adaptive Mixture-Of-Experts at Scale”, Hwang et al 2022

Tutel: Adaptive Mixture-of-Experts at Scale

“Gating Dropout: Communication-Efficient Regularization for Sparsely Activated Transformers”, Liu et al 2022

Gating Dropout: Communication-efficient Regularization for Sparsely Activated Transformers

“Sparse Mixers: Combining MoE and Mixing to Build a More Efficient BERT”, Lee-Thorp & Ainslie 2022

Sparse Mixers: Combining MoE and Mixing to build a more efficient BERT

“One Model, Multiple Modalities: A Sparsely Activated Approach for Text, Sound, Image, Video and Code”, Dai et al 2022

One Model, Multiple Modalities: A Sparsely Activated Approach for Text, Sound, Image, Video and Code

“InCoder: A Generative Model for Code Infilling and Synthesis”, Fried et al 2022

InCoder: A Generative Model for Code Infilling and Synthesis

“WuDaoMM: A Large-Scale Multi-Modal Dataset for Pre-Training Models”, Yuan et al 2022

WuDaoMM: A large-scale Multi-Modal Dataset for Pre-training models

“Efficient Language Modeling With Sparse All-MLP”, Yu et al 2022

Efficient Language Modeling with Sparse All-MLP

“Mixture-Of-Experts With Expert Choice Routing”, Zhou et al 2022

Mixture-of-Experts with Expert Choice Routing

“ST-MoE: Designing Stable and Transferable Sparse Expert Models”, Zoph et al 2022

ST-MoE: Designing Stable and Transferable Sparse Expert Models

“WuDao 2.0 With Its Lead Creator, Tang Jie”, Smith et al 2022

WuDao 2.0 with its lead creator, Tang Jie⁠:

View PDF:

/doc/ai/scaling/mixture-of-experts/2022-01-26-eyeonai-tangjiewudaointerview.pdf

“DeepSpeed-MoE: Advancing Mixture-Of-Experts Inference and Training to Power Next-Generation AI Scale”, Rajbhandari et al 2022

DeepSpeed-MoE: Advancing Mixture-of-Experts Inference and Training to Power Next-Generation AI Scale

“U.S. vs. China Rivalry Boosts Tech—And Tensions: Militarized AI Threatens a New Arms Race”, Smith 2021

U.S. vs. China Rivalry Boosts Tech—and Tensions: Militarized AI threatens a new arms race

“Efficient Large Scale Language Modeling With Mixtures of Experts”, Artetxe et al 2021

Efficient Large Scale Language Modeling with Mixtures of Experts

“GLaM: Efficient Scaling of Language Models With Mixture-Of-Experts”, Du et al 2021

GLaM: Efficient Scaling of Language Models with Mixture-of-Experts

“Beyond Distillation: Task-Level Mixture-Of-Experts (TaskMoE) for Efficient Inference”, Kudugunta et al 2021

Beyond Distillation: Task-level Mixture-of-Experts (TaskMoE) for Efficient Inference

“Scalable and Efficient MoE Training for Multitask Multilingual Models”, Kim et al 2021

Scalable and Efficient MoE Training for Multitask Multilingual Models

“Sparse-MLP: A Fully-MLP Architecture With Conditional Computation”, Lou et al 2021

Sparse-MLP: A Fully-MLP Architecture with Conditional Computation

“Go Wider Instead of Deeper”, Xue et al 2021

Go Wider Instead of Deeper

“MCL-GAN: Generative Adversarial Networks With Multiple Specialized Discriminators”, Choi & Han 2021

MCL-GAN: Generative Adversarial Networks with Multiple Specialized Discriminators

“CPM-2: Large-Scale Cost-Effective Pre-Trained Language Models”, Zhang et al 2021

CPM-2: Large-scale Cost-effective Pre-trained Language Models

“V-MoE: Scaling Vision With Sparse Mixture of Experts”, Riquelme et al 2021

V-MoE: Scaling Vision with Sparse Mixture of Experts

“Chinese AI Lab Challenges Google, OpenAI With a Model of 1.75 Trillion Parameters”, Du 2021

Chinese AI lab challenges Google, OpenAI with a model of 1.75 trillion parameters

“Exploring Sparse Expert Models and Beyond”, Yang et al 2021

Exploring Sparse Expert Models and Beyond

“RetGen: A Joint Framework for Retrieval and Grounded Text Generation Modeling”, Zhang et al 2021

RetGen: A Joint framework for Retrieval and Grounded Text Generation Modeling

“Carbon Emissions and Large Neural Network Training”, Patterson et al 2021

Carbon Emissions and Large Neural Network Training

“China’s GPT-3? BAAI Introduces Superscale Intelligence Model ‘Wu Dao 1.0’: The Beijing Academy of Artificial Intelligence (BAAI) Releases Wu Dao 1.0, China’s First Large-Scale Pretraining Model.”, Synced 2021

China’s GPT-3? BAAI Introduces Superscale Intelligence Model ‘Wu Dao 1.0’: The Beijing Academy of Artificial Intelligence (BAAI) releases Wu Dao 1.0, China’s first large-scale pretraining model.

“Coordination Among Neural Modules Through a Shared Global Workspace”, Goyal et al 2021

Coordination Among Neural Modules Through a Shared Global Workspace

“Switch Transformers: Scaling to Trillion Parameter Models With Simple and Efficient Sparsity”, Fedus et al 2021

Switch Transformers: Scaling to Trillion Parameter Models with Simple and Efficient Sparsity

“GShard: Scaling Giant Models With Conditional Computation and Automatic Sharding”, Lepikhin et al 2020

GShard: Scaling Giant Models with Conditional Computation and Automatic Sharding

“Efficient Content-Based Sparse Attention With Routing Transformers”, Roy et al 2020

Efficient Content-Based Sparse Attention with Routing Transformers

“One Model To Learn Them All”, Kaiser et al 2017

One Model To Learn Them All

“Hard Mixtures of Experts for Large Scale Weakly Supervised Vision”, Gross et al 2017

Hard Mixtures of Experts for Large Scale Weakly Supervised Vision

“Outrageously Large Neural Networks: The Sparsely-Gated Mixture-Of-Experts Layer”, Shazeer et al 2017

Outrageously Large Neural Networks: The Sparsely-Gated Mixture-of-Experts Layer

“Conditional Computation in Neural Networks for Faster Models”, Bengio et al 2015

Conditional Computation in Neural Networks for faster models

“Distilling the Knowledge in a Neural Network”, Hinton et al 2015

Distilling the Knowledge in a Neural Network

“Learning Factored Representations in a Deep Mixture of Experts”, Eigen et al 2013

Learning Factored Representations in a Deep Mixture of Experts

“Mixture of Experts: a Literature Survey”, Masoudnia & Ebrahimpour 2012

Mixture of experts: a literature survey

“GTC Spring 2021 Keynote With NVIDIA CEO Jensen Huang”

GTC Spring 2021 Keynote with NVIDIA CEO Jensen Huang⁠:

https://www.youtube.com/watch?v=eAn_oiZwUXA

“GTC 2021 Keynote With NVIDIA CEO Jensen Huang: NVIDIA CEO Jensen Huang Delivers the #GTC21 Keynote, Where He Introduced Amazing Breakthroughs in Building Virtual Worlds With NVIDIA Omniverse; in Advancing Enterprise Computing With New NVIDIA DGX Systems and Software; in Turning the Data Center into the New Unit of Computing With the New NVIDIA Grace CPU, BlueField-3 DPU, and DOCA 1.0 SDK; in Broadening the Reach of AI to All Companies and Industries With NVIDIA EGX and Aerial 5G; and in Transforming Transportation With NVIDIA DRIVE Orin and Atlan.”

GTC 2021 Keynote with NVIDIA CEO Jensen Huang: NVIDIA CEO Jensen Huang delivers the #GTC21 keynote, where he introduced amazing breakthroughs in building virtual worlds with NVIDIA Omniverse; in advancing enterprise computing with new NVIDIA DGX systems and software; in turning the data center into the new unit of computing with the new NVIDIA Grace CPU, BlueField-3 DPU, and DOCA 1.0 SDK; in broadening the reach of AI to all companies and industries with NVIDIA EGX and Aerial 5G; and in transforming transportation with NVIDIA DRIVE Orin and Atlan.⁠:

https://www.youtube.com/watch?v=eAn_oiZwUXA&t=2998s

lepikhin

We ran MoE (2048E,60L) with bfloat16 activations with total of 1 trillion model weights. Although trainable with manual diagnostics, with deep 1 trillion model we encountered several trainability issues with numerical stability. Will follow up.⁠:

/doc/www/localhost/7f9a857ac2f5416ec463e8d50e67596ab6328955.html

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`fast-models expertise-optimization code-synthesis retrieval-integration efficient-architecture adaptive-scaling`

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`dynamic-compute`

[see previous entry]

`sparse-experts`

[see previous entry]

Wikipedia

Ensemble learning
Mixture of experts
Wu Dao⁠:

https://en.wikipedia.org/wiki/Wu_Dao

Miscellaneous

Bibliography

https://arxiv.org/abs/2407.15811: “Stretching Each Dollar: Diffusion Training from Scratch on a Micro-Budget”, Vikash Sehwag, Xianghao Kong, Jingtao Li, Michael Spranger, Lingjuan Lyu

link-bibliography
https://arxiv.org/abs/2401.04088#mistral: “Mixtral of Experts”, Albert Q. Jiang, Alexandre Sablayrolles, Antoine Roux, Arthur Mensch, Blanche Savary, Chris Bamford, Devendra Singh Chaplot, Diego de las Casas, Emma Bou Hanna, Florian Bressand, Gianna Lengyel, Guillaume Bour, Guillaume Lample, Lélio Renard Lavaud, Lucile Saulnier, Marie-Anne Lachaux, Pierre Stock, Sandeep Subramanian, Sophia Yang, Szymon Antoniak, Teven Le Scao, Théophile Gervet, Thibaut Lavril, Thomas Wang, Timothée Lacroix, William El Sayed

link-bibliography
https://arxiv.org/abs/2311.10770: “Exponentially Faster Language Modeling”, Peter Belcak, Roger Wattenhofer

link-bibliography
https://arxiv.org/abs/2310.07096#ibm: “Sparse Universal Transformer”, Shawn Tan, Yikang Shen, Zhenfang Chen, Aaron Courville, Chuang Gan

link-bibliography
https://arxiv.org/abs/2308.14711: “Fast Feedforward Networks”, Peter Belcak, Roger Wattenhofer

link-bibliography
https://152334h.github.io/blog/non-determinism-in-gpt-4/: “Non-Determinism in GPT-4 Is Caused by Sparse MoE”, 152334H

link-bibliography
https://arxiv.org/abs/2306.00008#google: “Brainformers: Trading Simplicity for Efficiency”, Yanqi Zhou, Nan Du, Yanping Huang, Daiyi Peng, Chang Lan, Da Huang, Siamak Shakeri, David So, Andrew Dai, Yifeng Lu, Zhifeng Chen, Quoc Le, Claire Cui, James Laundon, Jeff Dean

link-bibliography
https://arxiv.org/abs/2301.13310#google: “AltUp: Alternating Updates for Efficient Transformers”, Cenk Baykal, Dylan Cutler, Nishanth Dikkala, Nikhil Ghosh, Rina Panigrahy, Xin Wang

link-bibliography
https://arxiv.org/abs/2212.05055#google: “Sparse Upcycling: Training Mixture-Of-Experts from Dense Checkpoints”, Aran Komatsuzaki, Joan Puigcerver, James Lee-Thorp, Carlos Riquelme Ruiz, Basil Mustafa, Joshua Ainslie, Yi Tay, Mostafa Dehghani, Neil Houlsby

link-bibliography
https://arxiv.org/abs/2211.15841: “MegaBlocks: Efficient Sparse Training With Mixture-Of-Experts”, Trevor Gale, Deepak Narayanan, Cliff Young, Matei Zaharia

link-bibliography
https://arxiv.org/abs/2211.01324#nvidia: “EDiff-I: Text-To-Image Diffusion Models With an Ensemble of Expert Denoisers”, Yogesh Balaji, Seungjun Nah, Xun Huang, Arash Vahdat, Jiaming Song, Karsten Kreis, Miika Aittala, Timo Aila, Samuli Laine, Bryan Catanzaro, Tero Karras, Ming-Yu Liu

link-bibliography
https://arxiv.org/abs/2207.10551#google: “Scaling Laws vs Model Architectures: How Does Inductive Bias Influence Scaling?”, Yi Tay, Mostafa Dehghani, Samira Abnar, Hyung Won Chung, William Fedus, Jinfeng Rao, Sharan Narang, Vinh Q. Tran, Dani Yogatama, Donald Metzler

link-bibliography
https://arxiv.org/abs/2206.04615: “Beyond the Imitation Game: Quantifying and Extrapolating the Capabilities of Language Models”, Aarohi Srivastava, Abhinav Rastogi, Abhishek Rao, Abu Awal Md Shoeb, Abubakar Abid, Adam Fisch, Adam R. Brown, Adam Santoro, Aditya Gupta, Adrià Garriga-Alonso, Agnieszka Kluska, Aitor Lewkowycz, Akshat Agarwal, Alethea Power, Alex Ray, Alex Warstadt, Alexander W. Kocurek, Ali Safaya, Ali Tazarv, Alice Xiang, Alicia Parrish, Allen Nie, Aman Hussain, Amanda Askell, Amanda Dsouza, Ambrose Slone, Ameet Rahane, Anantharaman S. Iyer, Anders Andreassen, Andrea Madotto, Andrea Santilli, Andreas Stuhlmüller, Andrew Dai, Andrew La, Andrew Lampinen, Andy Zou, Angela Jiang, Angelica Chen, Anh Vuong, Animesh Gupta, Anna Gottardi, Antonio Norelli, Anu Venkatesh, Arash Gholamidavoodi, Arfa Tabassum, Arul Menezes, Arun Kirubarajan, Asher Mullokandov, Ashish Sabharwal, Austin Herrick, Avia Efrat, Aykut Erdem, Ayla Karakaş, B. Ryan Roberts, Bao Sheng Loe, Barret Zoph, Bartłomiej Bojanowski, Batuhan Özyurt, Behnam Hedayatnia, Behnam Neyshabur, Benjamin Inden, Benno Stein, Berk Ekmekci, Bill Yuchen Lin, Blake Howald, Cameron Diao, Cameron Dour, Catherine Stinson, Cedrick Argueta, César Ferri Ramírez, Chandan Singh, Charles Rathkopf, Chenlin Meng, Chitta Baral, Chiyu Wu, Chris Callison-Burch, Chris Waites, Christian Voigt, Christopher D. Manning, Christopher Potts, Cindy Ramirez, Clara E. Rivera, Clemencia Siro, Colin Raffel, Courtney Ashcraft, Cristina Garbacea, Damien Sileo, Dan Garrette, Dan Hendrycks, Dan Kilman, Dan Roth, Daniel Freeman, Daniel Khashabi, Daniel Levy, Daniel Moseguí González, Danielle Perszyk, Danny Hernandez, Danqi Chen, Daphne Ippolito, Dar Gilboa, David Dohan, David Drakard, David Jurgens, Debajyoti Datta, Deep Ganguli, Denis Emelin, Denis Kleyko, Deniz Yuret, Derek Chen, Derek Tam, Dieuwke Hupkes, Diganta Misra, Dilyar Buzan, Dimitri Coelho Mollo, Diyi Yang, Dong-Ho Lee, Ekaterina Shutova, Ekin Dogus Cubuk, Elad Segal, Eleanor Hagerman, Elizabeth Barnes, Elizabeth Donoway, Ellie Pavlick, Emanuele Rodola, Emma Lam, Eric Chu, Eric Tang, Erkut Erdem, Ernie Chang, Ethan A. Chi, Ethan Dyer, Ethan Jerzak, Ethan Kim, Eunice Engefu Manyasi, Evgenii Zheltonozhskii, Fanyue Xia, Fatemeh Siar, Fernando Martínez-Plumed, Francesca Happé, Francois Chollet, Frieda Rong, Gaurav Mishra, Genta Indra Winata, Gerard de Melo, Germán Kruszewski, Giambattista Parascandolo, Giorgio Mariani, Gloria Wang, Gonzalo Jaimovitch-López, Gregor Betz, Guy Gur-Ari, Hana Galijasevic, Hannah Kim, Hannah Rashkin, Hannaneh Hajishirzi, Harsh Mehta, Hayden Bogar, Henry Shevlin, Hinrich Schütze, Hiromu Yakura, Hongming Zhang, Hugh Mee Wong, Ian Ng, Isaac Noble, Jaap Jumelet, Jack Geissinger, Jackson Kernion, Jacob Hilton, Jaehoon Lee, Jaime Fernández Fisac, James B. Simon, James Koppel, James Zheng, James Zou, Jan Kocoń, Jana Thompson, Jared Kaplan, Jarema Radom, Jascha Sohl-Dickstein, Jason Phang, Jason Wei, Jason Yosinski, Jekaterina Novikova, Jelle Bosscher, Jennifer Marsh, Jeremy Kim, Jeroen Taal, Jesse Engel, Jesujoba Alabi, Jiacheng Xu, Jiaming Song, Jillian Tang, Joan Waweru, John Burden, John Miller, John U. Balis, Jonathan Berant, Jörg Frohberg, Jos Rozen, Jose Hernandez-Orallo, Joseph Boudeman, Joseph Jones, Joshua B. Tenenbaum, Joshua S. Rule, Joyce Chua, Kamil Kanclerz, Karen Livescu, Karl Krauth, Karthik Gopalakrishnan, Katerina Ignatyeva, Katja Markert, Kaustubh D. Dhole, Kevin Gimpel, Kevin Omondi, Kory Mathewson, Kristen Chiafullo, Ksenia Shkaruta, Kumar Shridhar, Kyle McDonell, Kyle Richardson, Laria Reynolds, Leo Gao, Li Zhang, Liam Dugan, Lianhui Qin, Lidia Contreras-Ochando, Louis-Philippe Morency, Luca Moschella, Lucas Lam, Lucy Noble, Ludwig Schmidt, Luheng He, Luis Oliveros Colón, Luke Metz, Lütfi Kerem Şenel, Maarten Bosma, Maarten Sap, Maartje ter Hoeve, Maheen Farooqi, Manaal Faruqui, Mantas Mazeika, Marco Baturan, Marco Marelli, Marco Maru, Maria Jose Ramírez Quintana, Marie Tolkiehn, Mario Giulianelli, Martha Lewis, Martin Potthast, Matthew L. Leavitt, Matthias Hagen, Mátyás Schubert, Medina Orduna Baitemirova, Melody Arnaud, Melvin McElrath, Michael A. Yee, Michael Cohen, Michael Gu, Michael Ivanitskiy, Michael Starritt, Michael Strube, Michał Swędrowski, Michele Bevilacqua, Michihiro Yasunaga, Mihir Kale, Mike Cain, Mimee Xu, Mirac Suzgun, Mo Tiwari, Mohit Bansal, Moin Aminnaseri, Mor Geva, Mozhdeh Gheini, Mukund Varma T, Nanyun Peng, Nathan Chi, Nayeon Lee, Neta Gur-Ari Krakover, Nicholas Cameron, Nicholas Roberts, Nick Doiron, Nikita Nangia, Niklas Deckers, Niklas Muennighoff, Nitish Shirish Keskar, Niveditha S. Iyer, Noah Constant, Noah Fiedel, Nuan Wen, Oliver Zhang, Omar Agha, Omar Elbaghdadi, Omer Levy, Owain Evans, Pablo Antonio Moreno Casares, Parth Doshi, Pascale Fung, Paul Pu Liang, Paul Vicol, Pegah Alipoormolabashi, Peiyuan Liao, Percy Liang, Peter Chang, Peter Eckersley, Phu Mon Htut, Pinyu Hwang, Piotr Miłkowski, Piyush Patil, Pouya Pezeshkpour, Priti Oli, Qiaozhu Mei, Qing Lyu, Qinlang Chen, Rabin Banjade, Rachel Etta Rudolph, Raefer Gabriel, Rahel Habacker, Ramón Risco Delgado, Raphaël Millière, Rhythm Garg, Richard Barnes, Rif A. Saurous, Riku Arakawa, Robbe Raymaekers, Robert Frank, Rohan Sikand, Roman Novak, Roman Sitelew, Ronan LeBras, Rosanne Liu, Rowan Jacobs, Rui Zhang, Ruslan Salakhutdinov, Ryan Chi, Ryan Lee, Ryan Stovall, Ryan Teehan, Rylan Yang, Sahib Singh, Saif M. Mohammad, Sajant Anand, Sam Dillavou, Sam Shleifer, Sam Wiseman, Samuel Gruetter, Samuel R. Bowman, Samuel S. Schoenholz, Sanghyun Han, Sanjeev Kwatra, Sarah A. Rous, Sarik Ghazarian, Sayan Ghosh, Sean Casey, Sebastian Bischoff, Sebastian Gehrmann, Sebastian Schuster, Sepideh Sadeghi, Shadi Hamdan, Sharon Zhou, Shashank Srivastava, Sherry Shi, Shikhar Singh, Shima Asaadi, Shixiang Shane Gu, Shubh Pachchigar, Shubham Toshniwal, Shyam Upadhyay, Shyamolima, Debnath, Siamak Shakeri, Simon Thormeyer, Simone Melzi, Siva Reddy, Sneha Priscilla Makini, Soo-Hwan Lee, Spencer Torene, Sriharsha Hatwar, Stanislas Dehaene, Stefan Divic, Stefano Ermon, Stella Biderman, Stephanie Lin, Stephen Prasad, Steven T. Piantadosi, Stuart M. Shieber, Summer Misherghi, Svetlana Kiritchenko, Swaroop Mishra, Tal Linzen, Tal Schuster, Tao Li, Tao Yu, Tariq Ali, Tatsu Hashimoto, Te-Lin Wu, Théo Desbordes, Theodore Rothschild, Thomas Phan, Tianle Wang, Tiberius Nkinyili, Timo Schick, Timofei Kornev, Timothy Telleen-Lawton, Titus Tunduny, Tobias Gerstenberg, Trenton Chang, Trishala Neeraj, Tushar Khot, Tyler Shultz, Uri Shaham, Vedant Misra, Vera Demberg, Victoria Nyamai, Vikas Raunak, Vinay Ramasesh, Vinay Uday Prabhu, Vishakh Padmakumar, Vivek Srikumar, William Fedus, William Saunders, William Zhang, Wout Vossen, Xiang Ren, Xiaoyu Tong, Xinran Zhao, Xinyi Wu, Xudong Shen, Yadollah Yaghoobzadeh, Yair Lakretz, Yangqiu Song, Yasaman Bahri, Yejin Choi, Yichi Yang, Yiding Hao, Yifu Chen, Yonatan Belinkov, Yu Hou, Yufang Hou, Yuntao Bai, Zachary Seid, Zhuoye Zhao, Zijian Wang, Zijie J. Wang, Zirui Wang, Ziyi Wu

link-bibliography
https://arxiv.org/abs/2206.03382#microsoft: “Tutel: Adaptive Mixture-Of-Experts at Scale”, Changho Hwang, Wei Cui, Yifan Xiong, Ziyue Yang, Ze Liu, Han Hu, Zilong Wang, Rafael Salas, Jithin Jose, Prabhat Ram, Joe Chau, Peng Cheng, Fan Yang, Mao Yang, Yongqiang Xiong

link-bibliography
https://arxiv.org/abs/2205.12399#google: “Sparse Mixers: Combining MoE and Mixing to Build a More Efficient BERT”, James Lee-Thorp, Joshua Ainslie

link-bibliography
https://arxiv.org/abs/2204.05999#facebook: “InCoder: A Generative Model for Code Infilling and Synthesis”, Daniel Fried, Armen Aghajanyan, Jessy Lin, Sida Wang, Eric Wallace, Freda Shi, Ruiqi Zhong, Wen-tau Yih, Luke Zettlemoyer, Mike Lewis

link-bibliography
https://arxiv.org/abs/2203.11480#baai: “WuDaoMM: A Large-Scale Multi-Modal Dataset for Pre-Training Models”, Sha Yuan, Shuai Zhao, Jiahong Leng, Zhao Xue, Hanyu Zhao, Peiyu Liu, Zheng Gong, Wayne Xin Zhao, Junyi Li, Jie Tang

link-bibliography
https://arxiv.org/abs/2203.06850: “Efficient Language Modeling With Sparse All-MLP”, Ping Yu, Mikel Artetxe, Myle Ott, Sam Shleifer, Hongyu Gong, Ves Stoyanov, Xian Li

link-bibliography
https://arxiv.org/abs/2202.09368#google: “Mixture-Of-Experts With Expert Choice Routing”, Yanqi Zhou, Tao Lei, Hanxiao Liu, Nan Du, Yanping Huang, Vincent Zhao, Andrew Dai, Zhifeng Chen, Quoc Le, James Laudon

link-bibliography
https://arxiv.org/abs/2202.08906#google: “ST-MoE: Designing Stable and Transferable Sparse Expert Models”, Barret Zoph, Irwan Bello, Sameer Kumar, Nan Du, Yanping Huang, Jeff Dean, Noam Shazeer, William Fedus

link-bibliography
https://arxiv.org/abs/2201.05596#microsoft: “DeepSpeed-MoE: Advancing Mixture-Of-Experts Inference and Training to Power Next-Generation AI Scale”, Samyam Rajbhandari, Conglong Li, Zhewei Yao, Minjia Zhang, Reza Yazdani Aminabadi, Ammar Ahmad Awan, Jeff Rasley, Yuxiong He

link-bibliography
https://spectrum.ieee.org/china-us-militarized-ai: “U.S. vs. China Rivalry Boosts Tech—And Tensions: Militarized AI Threatens a New Arms Race”, Craig S. Smith

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https://arxiv.org/abs/2104.10350#google: “Carbon Emissions and Large Neural Network Training”, David Patterson, Joseph Gonzalez, Quoc Le, Chen Liang, Lluis-Miquel Munguia, Daniel Rothchild, David So, Maud Texier, Jeff Dean

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https://arxiv.org/abs/2101.03961#google: “Switch Transformers: Scaling to Trillion Parameter Models With Simple and Efficient Sparsity”, William Fedus, Barret Zoph, Noam Shazeer

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https://arxiv.org/abs/2003.05997#google: “Efficient Content-Based Sparse Attention With Routing Transformers”, Aurko Roy, Mohammad Saffar, Ashish Vaswani, David Grangier

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