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--- |
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language: |
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- nl |
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- en |
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- multilingual |
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license: apache-2.0 |
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tags: |
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- dutch |
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- english |
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- t5 |
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- t5x |
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- ul2 |
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- seq2seq |
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- translation |
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datasets: |
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- yhavinga/mc4_nl_cleaned |
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- yhavinga/nedd_wiki_news |
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pipeline_tag: translation |
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widget: |
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- text: >- |
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Redistricting and West Virginia’s shrinking population forced the state’s |
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Republican Legislature to pit Mr. McKinley, a six-term Republican with a |
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pragmatic bent, against Mr. Mooney, who has served four terms marked more |
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by conservative rhetoric than legislative achievements. |
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- text: >- |
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It is a painful and tragic spectacle that rises before me: I have drawn |
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back the curtain from the rottenness of man. This word, in my mouth, is at |
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least free from one suspicion: that it involves a moral accusation against |
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humanity. |
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- text: >- |
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Young Wehling was hunched in his chair, his head in his hand. He was so |
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rumpled, so still and colorless as to be virtually invisible. His |
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camouflage was perfect, since the waiting room had a disorderly and |
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demoralized air, too. Chairs and ashtrays had been moved away from the |
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walls. The floor was paved with spattered dropcloths. |
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--- |
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# ul2-large-en-nl for English to Dutch translation |
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Fine-tuned T5 model on English to Dutch translation that was pretrained on Dutch using a UL2 (Mixture-of-Denoisers) objective. |
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The T5 model was introduced in |
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[this paper](https://arxiv.org/abs/1910.10683) |
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and first released at [this page](https://github.com/google-research/text-to-text-transfer-transformer). |
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The UL2 objective was introduced in |
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[this paper](https://arxiv.org/abs/2205.05131) |
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and first released at [this page](https://github.com/google-research/google-research/tree/master/ul2). |
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## Model description |
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T5 is an encoder-decoder model and treats all NLP problems in a text-to-text format. |
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`ul2-large-en-nl-v2` T5 is a transformers model fine-tuned on parallel sentence and paragraph pairs |
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sampled from books. |
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This model used the [T5 v1.1](https://github.com/google-research/text-to-text-transfer-transformer/blob/main/released_checkpoints.md#t511) improvements compared to the original T5 model during the pretraining: |
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- GEGLU activation in the feed-forward hidden layer, rather than ReLU - see [here](https://arxiv.org/abs/2002.05202) |
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- Dropout was turned off during pre-training. Dropout should be re-enabled during fine-tuning |
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- Pre-trained on self-supervised objective only without mixing in the downstream tasks |
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- No parameter sharing between embedding and classifier layer |
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### UL2 pretraining objective |
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This model was pretrained with the UL2's Mixture-of-Denoisers (MoD) objective, that combines diverse pre-training |
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paradigms together. UL2 frames different objective functions for training language models as denoising tasks, where |
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the model has to recover missing sub-sequences of a given input. During pre-training it uses a novel mixture-of-denoisers |
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that samples from a varied set of such objectives, each with different configurations. UL2 is trained using a mixture of |
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three denoising tasks: |
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1. R-denoising (or regular span corruption), which emulates the standard T5 span corruption objective; |
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2. X-denoising (or extreme span corruption); and |
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3. S-denoising (or sequential PrefixLM). |
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During pre-training, we sample from the available denoising tasks based on user-specified ratios. |
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UL2 introduces a notion of mode switching, wherein downstream fine-tuning is associated with specific pre-training |
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denoising task. During the pre-training, a paradigm token is inserted to the input |
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(`[NLU]` for R-denoising, `[NLG]` for X-denoising, or `[S2S]` for S-denoising) indicating the denoising task at hand. |
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Then, during fine-tuning the same input token should be inserted to get the best performance for different downstream |
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fine-tuning tasks. |
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## Intended uses & limitations |
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This model was fine-tuned on parallel sentence and paragraph pairs and can be used |
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for machine translation. |
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### How to use |
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Here is how to use this model in PyTorch: |
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```python |
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model_name = "yhavinga/ul2-large-en-nl-v2" |
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from transformers import AutoTokenizer |
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from transformers import AutoModelForSeq2SeqLM |
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from transformers import pipeline |
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import torch |
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device_num = 0 if torch.cuda.is_available() else -1 |
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device = "cpu" if device_num < 0 else f"cuda:{device_num}" |
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tokenizer = AutoTokenizer.from_pretrained(model_name, use_fast=False) |
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model = AutoModelForSeq2SeqLM.from_pretrained(model_name, use_auth_token=True).to( |
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device |
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) |
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params = {"max_length": 370, "num_beams": 4, "early_stopping": True} |
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translator = pipeline("translation", tokenizer=tokenizer, model=model, device=device_num) |
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print(translator("Young Wehling was hunched in his chair, his head in his hand. He was so rumpled, so still and colorless as to be virtually invisible.", |
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**params)[0]['translation_text']) |
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``` |
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### Limitations and bias |
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The training data used for this model contains a lot of unfiltered content from the internet, which is far from neutral. |
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Therefore, the model can have biased predictions. This bias will also affect all fine-tuned versions of this model. |
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## Training data |
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The `ul2-large-en-nl` T5 model was pre-trained simultaneously on a combination of several datasets, |
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including the `full` config of the "mc4_nl_cleaned" dataset, which is a cleaned version of Common Crawl's web |
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crawl corpus, Dutch books, the Dutch subset of Wikipedia (2022-03-20), and a subset of "mc4_nl_cleaned" |
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containing only texts from Dutch newspapers. |
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After pre-training, the model was |
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fine-tuned on a translation dataset containing 13 million sentence and paragraph pairs |
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sampled from books. |
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## Training procedure |
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### Preprocessing |
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The ul2-large-en-nl T5 model uses a SentencePiece unigram tokenizer with a vocabulary of 32,000 tokens. |
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The tokenizer includes the special tokens `<pad>`, `</s>`, `<unk>`, known from the original T5 paper, |
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`[NLU]`, `[NLG]` and `[S2S]` for the MoD pre-training, and `<n>` for newline. |
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During pre-training with the UL2 objective, input and output sequences consist of 512 consecutive tokens. |
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The tokenizer does not lowercase texts and is therefore case-sensitive; it distinguises |
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between `dutch` and `Dutch`. |
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Additionally, 100+28 extra tokens were added for pre-training tasks, resulting in a total of 32,128 tokens. |
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### Fine-tuning |
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This model was fine-tuned on a dataset containing 13M sentence and paragraph translation pairs sampled from books. |
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Wandb run https://wandb.ai/yepster/ul2-large-de-neddx2-en-nl/runs/s3z13day?workspace=user-yepster |
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* Pre-trained model used as starting point: yhavinga/ul2-large-dutch-english (3150k checkpoint) |
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The first three epochs were trained using the T5x framework, with a batch size of 128, a constant learning rate of 0.001. This process spanned from step 3150k to 3440k. |
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For the concluding ~half epoch, a HuggingFace Flax based trainer was used with the following settings: |
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- **Batch Size**: Total effective batch size of 512, achieved via per-device settings and gradient accumulation. |
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- **Num Train Samples**: 5120k. |
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- **Learning Rate**: Set at 0.0002, utilizing cosine scheduling. |
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- **Optimizer**: AdamW with beta1=0.9, beta2=0.997, epsilon=1e-8. |
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- **Weight Decay**: Configured to 0.001 for regularization. |
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- **Additional Parameters**: Dropout rate of 0.01, label smoothing factor of 0.11, and sequence length of 370 tokens. Model datatype is bfloat16, z_loss at 0.0001. |
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## Evaluation results |
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TBD |
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## Acknowledgements |
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This project would not have been possible without compute generously provided by Google through the |
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[TPU Research Cloud](https://sites.research.google/trc/). |
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Thanks to the [Finnish-NLP](https://huggingface.co/Finnish-NLP) authors for releasing their code for the UL2 objective and associated task definitions. |
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Thanks to [Stephenn Fernandes](https://huggingface.co/StephennFernandes) for helping me get started with the t5x framework. |
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Created by [Yeb Havinga](https://www.linkedin.com/in/yeb-havinga-86530825/) |
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