‘recurrent Transformers’ tag

Gwern Branwen

See Also
Links
Miscellaneous
Bibliography

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Links

“RecurrentGemma: Moving Past Transformers for Efficient Open Language Models”, Botev et al 2024

RecurrentGemma: Moving Past Transformers for Efficient Open Language Models

“Revisiting Dynamic Evaluation: Online Adaptation for Large Language Models”, Rannen-Triki et al 2024

Revisiting Dynamic Evaluation: Online Adaptation for Large Language Models

“Transformers Are Multi-State RNNs”, Oren et al 2024

Transformers are Multi-State RNNs

“Think Before You Speak: Training Language Models With Pause Tokens”, Goyal et al 2023

Think before you speak: Training Language Models With Pause Tokens

“Retentive Network: A Successor to Transformer for Large Language Models”, Sun et al 2023

Retentive Network: A Successor to Transformer for Large Language Models

“Block-State Transformers”, Fathi et al 2023

Block-State Transformers

“Looped Transformers As Programmable Computers”, Giannou et al 2023

Looped Transformers as Programmable Computers

“FWL: Meta-Learning Fast Weight Language Models”, Clark et al 2022

FWL: Meta-Learning Fast Weight Language Models

“Fine-Tuning Pre-Trained Transformers into Decaying Fast Weights”, Mao 2022

Fine-Tuning Pre-trained Transformers into Decaying Fast Weights

“Simple Recurrence Improves Masked Language Models”, Lei et al 2022

Simple Recurrence Improves Masked Language Models

“Block-Recurrent Transformers”, Hutchins et al 2022

Block-Recurrent Transformers

“S4: Efficiently Modeling Long Sequences With Structured State Spaces”, Gu et al 2021

S4: Efficiently Modeling Long Sequences with Structured State Spaces

“LSSL: Combining Recurrent, Convolutional, and Continuous-Time Models With Linear State-Space Layers”, Gu et al 2021

LSSL: Combining Recurrent, Convolutional, and Continuous-time Models with Linear State-Space Layers

“Do Long-Range Language Models Actually Use Long-Range Context?”, Sun et al 2021

Do Long-Range Language Models Actually Use Long-Range Context?

“Finetuning Pretrained Transformers into RNNs”, Kasai et al 2021

Finetuning Pretrained Transformers into RNNs

“When Attention Meets Fast Recurrence: Training SRU++ Language Models With Reduced Compute”, Lei 2021

When Attention Meets Fast Recurrence: Training SRU++ Language Models with Reduced Compute

“Mind the Gap: Assessing Temporal Generalization in Neural Language Models § Dynamic Evaluation”, Lazaridou et al 2021 (page 7 org deepmind)

Mind the Gap: Assessing Temporal Generalization in Neural Language Models § Dynamic Evaluation

“Shortformer: Better Language Modeling Using Shorter Inputs”, Press et al 2020

Shortformer: Better Language Modeling using Shorter Inputs

“Untangling Tradeoffs between Recurrence and Self-Attention in Neural Networks”, Kerg et al 2020

Untangling tradeoffs between recurrence and self-attention in neural networks

“Addressing Some Limitations of Transformers With Feedback Memory”, Fan et al 2020

Addressing Some Limitations of Transformers with Feedback Memory

“DEQ: Deep Equilibrium Models”, Bai et al 2019

DEQ: Deep Equilibrium Models

“XLNet: Generalized Autoregressive Pretraining for Language Understanding”, Yang et al 2019

XLNet: Generalized Autoregressive Pretraining for Language Understanding

“Dynamic Evaluation of Transformer Language Models”, Krause et al 2019

Dynamic Evaluation of Transformer Language Models

“Transformer-XL: Attentive Language Models Beyond a Fixed-Length Context”, Dai et al 2019

Transformer-XL: Attentive Language Models Beyond a Fixed-Length Context

“Transformer-XL—Combining Transformers and RNNs Into a State-Of-The-Art Language Model”, Horev 2019

Transformer-XL—Combining Transformers and RNNs Into a State-of-the-art Language Model

“Universal Transformers”, Dehghani et al 2018

Universal Transformers

“Hyperbolic Attention Networks”, Gulcehre et al 2018

Hyperbolic Attention Networks

“Improving Neural Language Models With a Continuous Cache”, Grave et al 2016

Improving Neural Language Models with a Continuous Cache

“Context Caching”

Context caching⁠:

View HTML:

/doc/www/ai.google.dev/4fef11935ed94edd3fe9c8562e140a5e4f041453.html

joeddav

So I tried out GPT-3’s trick of conditioning on training data with XLNet. While it doesn’t do as well as the 175B GPT-3, it does much better than the version which is the same size as XLNet (0.4B). The visual below is from their paper on WinoGrande—I added the squares for XLNet.⁠:

/doc/www/localhost/aa7cf24c8fc4907aaa6c9c3b2adf17e0831ebe9d.html

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