--- language: fr datasets: - unicamp-dl/mmarco widget: - text: "Python (prononcé /pi.tɔ̃/) est un langage de programmation interprété, multi-paradigme et multiplateformes. Il favorise la programmation impérative structurée, fonctionnelle et orientée objet. Il est doté d'un typage dynamique fort, d'une gestion automatique de la mémoire par ramasse-miettes et d'un système de gestion d'exceptions ; il est ainsi similaire à Perl, Ruby, Scheme, Smalltalk et Tcl." license: apache-2.0 --- # doc2query/msmarco-french-mt5-base-v1 This is a [doc2query](https://arxiv.org/abs/1904.08375) model based on mT5 (also known as [docT5query](https://cs.uwaterloo.ca/~jimmylin/publications/Nogueira_Lin_2019_docTTTTTquery-v2.pdf)). It can be used for: - **Document expansion**: You generate for your paragraphs 20-40 queries and index the paragraphs and the generates queries in a standard BM25 index like Elasticsearch, OpenSearch, or Lucene. The generated queries help to close the lexical gap of lexical search, as the generate queries contain synonyms. Further, it re-weights words giving important words a higher weight even if they appear seldomn in a paragraph. In our [BEIR](https://arxiv.org/abs/2104.08663) paper we showed that BM25+docT5query is a powerful search engine. In the [BEIR repository](https://github.com/beir-cellar/beir) we have an example how to use docT5query with Pyserini. - **Domain Specific Training Data Generation**: It can be used to generate training data to learn an embedding model. In our [GPL-Paper](https://arxiv.org/abs/2112.07577) / [GPL Example on SBERT.net](https://www.sbert.net/examples/domain_adaptation/README.html#gpl-generative-pseudo-labeling) we have an example how to use the model to generate (query, text) pairs for a given collection of unlabeled texts. These pairs can then be used to train powerful dense embedding models. ## Usage ```python from transformers import AutoTokenizer, AutoModelForSeq2SeqLM import torch model_name = 'doc2query/msmarco-french-mt5-base-v1' tokenizer = AutoTokenizer.from_pretrained(model_name) model = AutoModelForSeq2SeqLM.from_pretrained(model_name) text = "Python (prononcé /pi.tɔ̃/) est un langage de programmation interprété, multi-paradigme et multiplateformes. Il favorise la programmation impérative structurée, fonctionnelle et orientée objet. Il est doté d'un typage dynamique fort, d'une gestion automatique de la mémoire par ramasse-miettes et d'un système de gestion d'exceptions ; il est ainsi similaire à Perl, Ruby, Scheme, Smalltalk et Tcl." def create_queries(para): input_ids = tokenizer.encode(para, return_tensors='pt') with torch.no_grad(): # Here we use top_k / top_k random sampling. It generates more diverse queries, but of lower quality sampling_outputs = model.generate( input_ids=input_ids, max_length=64, do_sample=True, top_p=0.95, top_k=10, num_return_sequences=5 ) # Here we use Beam-search. It generates better quality queries, but with less diversity beam_outputs = model.generate( input_ids=input_ids, max_length=64, num_beams=5, no_repeat_ngram_size=2, num_return_sequences=5, early_stopping=True ) print("Paragraph:") print(para) print("\nBeam Outputs:") for i in range(len(beam_outputs)): query = tokenizer.decode(beam_outputs[i], skip_special_tokens=True) print(f'{i + 1}: {query}') print("\nSampling Outputs:") for i in range(len(sampling_outputs)): query = tokenizer.decode(sampling_outputs[i], skip_special_tokens=True) print(f'{i + 1}: {query}') create_queries(text) ``` **Note:** `model.generate()` is non-deterministic for top_k/top_n sampling. It produces different queries each time you run it. ## Training This model fine-tuned [google/mt5-base](https://huggingface.co/google/mt5-base) for 66k training steps (4 epochs on the 500k training pairs from MS MARCO). For the training script, see the `train_script.py` in this repository. The input-text was truncated to 320 word pieces. Output text was generated up to 64 word pieces. This model was trained on a (query, passage) from the [mMARCO dataset](https://github.com/unicamp-dl/mMARCO).