--- language: en license: apache-2.0 tags: - learned sparse - opensearch - transformers - retrieval - passage-retrieval - document-expansion - bag-of-words --- # opensearch-neural-sparse-encoding-doc-v2-distill ## Select the model The model should be selected considering search relevance, model inference and retrieval efficiency(FLOPS). We benchmark models' **zero-shot performance** on a subset of BEIR benchmark: TrecCovid,NFCorpus,NQ,HotpotQA,FiQA,ArguAna,Touche,DBPedia,SCIDOCS,FEVER,Climate FEVER,SciFact,Quora. Overall, the v2 series of models have better search relevance, efficiency and inference speed than the v1 series. The specific advantages and disadvantages may vary across different datasets. | Model | Inference-free for Retrieval | Model Parameters | AVG NDCG@10 | AVG FLOPS | |-------|------------------------------|------------------|-------------|-----------| | [opensearch-neural-sparse-encoding-v1](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-v1) | | 133M | 0.524 | 11.4 | | [opensearch-neural-sparse-encoding-v2-distill](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-v2-distill) | | 67M | 0.528 | 8.3 | | [opensearch-neural-sparse-encoding-doc-v1](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-doc-v1) | ✔️ | 133M | 0.490 | 2.3 | | [opensearch-neural-sparse-encoding-doc-v2-distill](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-doc-v2-distill) | ✔️ | 67M | 0.504 | 1.8 | | [opensearch-neural-sparse-encoding-doc-v2-mini](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-doc-v2-mini) | ✔️ | 23M | 0.497 | 1.7 | ## Overview - **Paper**: [Towards Competitive Search Relevance For Inference-Free Learned Sparse Retrievers](https://arxiv.org/abs/2411.04403) - **Fine-tuning sample**: [opensearch-sparse-model-tuning-sample](https://github.com/zhichao-aws/opensearch-sparse-model-tuning-sample) This is a learned sparse retrieval model. It encodes the documents to 30522 dimensional **sparse vectors**. For queries, it just use a tokenizer and a weight look-up table to generate sparse vectors. The non-zero dimension index means the corresponding token in the vocabulary, and the weight means the importance of the token. And the similarity score is the inner product of query/document sparse vectors. In the real-world use case, the search performance of opensearch-neural-sparse-encoding-v1 is comparable to BM25. The training datasets includes MS MARCO, eli5_question_answer, squad_pairs, WikiAnswers, yahoo_answers_title_question, gooaq_pairs, stackexchange_duplicate_questions_body_body, wikihow, S2ORC_title_abstract, stackexchange_duplicate_questions_title-body_title-body, yahoo_answers_question_answer, searchQA_top5_snippets, stackexchange_duplicate_questions_title_title, yahoo_answers_title_answer. OpenSearch neural sparse feature supports learned sparse retrieval with lucene inverted index. Link: https://opensearch.org/docs/latest/query-dsl/specialized/neural-sparse/. The indexing and search can be performed with OpenSearch high-level API. ## Usage (HuggingFace) This model is supposed to run inside OpenSearch cluster. But you can also use it outside the cluster, with HuggingFace models API. ```python import json import itertools import torch from transformers import AutoModelForMaskedLM, AutoTokenizer # get sparse vector from dense vectors with shape batch_size * seq_len * vocab_size def get_sparse_vector(feature, output): values, _ = torch.max(output*feature["attention_mask"].unsqueeze(-1), dim=1) values = torch.log(1 + torch.relu(values)) values[:,special_token_ids] = 0 return values # transform the sparse vector to a dict of (token, weight) def transform_sparse_vector_to_dict(sparse_vector): sample_indices,token_indices=torch.nonzero(sparse_vector,as_tuple=True) non_zero_values = sparse_vector[(sample_indices,token_indices)].tolist() number_of_tokens_for_each_sample = torch.bincount(sample_indices).cpu().tolist() tokens = [transform_sparse_vector_to_dict.id_to_token[_id] for _id in token_indices.tolist()] output = [] end_idxs = list(itertools.accumulate([0]+number_of_tokens_for_each_sample)) for i in range(len(end_idxs)-1): token_strings = tokens[end_idxs[i]:end_idxs[i+1]] weights = non_zero_values[end_idxs[i]:end_idxs[i+1]] output.append(dict(zip(token_strings, weights))) return output # download the idf file from model hub. idf is used to give weights for query tokens def get_tokenizer_idf(tokenizer): from huggingface_hub import hf_hub_download local_cached_path = hf_hub_download(repo_id="opensearch-project/opensearch-neural-sparse-encoding-doc-v2-mini", filename="idf.json") with open(local_cached_path) as f: idf = json.load(f) idf_vector = [0]*tokenizer.vocab_size for token,weight in idf.items(): _id = tokenizer._convert_token_to_id_with_added_voc(token) idf_vector[_id]=weight return torch.tensor(idf_vector) # load the model model = AutoModelForMaskedLM.from_pretrained("opensearch-project/opensearch-neural-sparse-encoding-doc-v2-mini") tokenizer = AutoTokenizer.from_pretrained("opensearch-project/opensearch-neural-sparse-encoding-doc-v2-mini") idf = get_tokenizer_idf(tokenizer) # set the special tokens and id_to_token transform for post-process special_token_ids = [tokenizer.vocab[token] for token in tokenizer.special_tokens_map.values()] get_sparse_vector.special_token_ids = special_token_ids id_to_token = ["" for i in range(tokenizer.vocab_size)] for token, _id in tokenizer.vocab.items(): id_to_token[_id] = token transform_sparse_vector_to_dict.id_to_token = id_to_token query = "What's the weather in ny now?" document = "Currently New York is rainy." # encode the query feature_query = tokenizer([query], padding=True, truncation=True, return_tensors='pt', return_token_type_ids=False) input_ids = feature_query["input_ids"] batch_size = input_ids.shape[0] query_vector = torch.zeros(batch_size, tokenizer.vocab_size) query_vector[torch.arange(batch_size).unsqueeze(-1), input_ids] = 1 query_sparse_vector = query_vector*idf # encode the document feature_document = tokenizer([document], padding=True, truncation=True, return_tensors='pt', return_token_type_ids=False) output = model(**feature_document)[0] document_sparse_vector = get_sparse_vector(feature_document, output) # get similarity score sim_score = torch.matmul(query_sparse_vector[0],document_sparse_vector[0]) print(sim_score) # tensor(13.8344, grad_fn=) query_token_weight = transform_sparse_vector_to_dict(query_sparse_vector)[0] document_query_token_weight = transform_sparse_vector_to_dict(document_sparse_vector)[0] for token in sorted(query_token_weight, key=lambda x:query_token_weight[x], reverse=True): if token in document_query_token_weight: print("score in query: %.4f, score in document: %.4f, token: %s"%(query_token_weight[token],document_query_token_weight[token],token)) # result: # score in query: 5.7729, score in document: 1.0251, token: ny # score in query: 4.5684, score in document: 1.1145, token: weather # score in query: 3.5895, score in document: 0.5356, token: now # score in query: 3.3313, score in document: 0.2710, token: ? ``` The above code sample shows an example of neural sparse search. Although there is no overlap token in original query and document, but this model performs a good match. ## Detailed Search Relevance
| Model | Average | Trec Covid | NFCorpus | NQ | HotpotQA | FiQA | ArguAna | Touche | DBPedia | SCIDOCS | FEVER | Climate FEVER | SciFact | Quora | |-------|---------|------------|----------|----|----------|------|---------|--------|---------|---------|-------|---------------|---------|-------| | [opensearch-neural-sparse-encoding-v1](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-v1) | 0.524 | 0.771 | 0.360 | 0.553 | 0.697 | 0.376 | 0.508 | 0.278 | 0.447 | 0.164 | 0.821 | 0.263 | 0.723 | 0.856 | | [opensearch-neural-sparse-encoding-v2-distill](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-v2-distill) | 0.528 | 0.775 | 0.347 | 0.561 | 0.685 | 0.374 | 0.551 | 0.278 | 0.435 | 0.173 | 0.849 | 0.249 | 0.722 | 0.863 | | [opensearch-neural-sparse-encoding-doc-v1](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-doc-v1) | 0.490 | 0.707 | 0.352 | 0.521 | 0.677 | 0.344 | 0.461 | 0.294 | 0.412 | 0.154 | 0.743 | 0.202 | 0.716 | 0.788 | | [opensearch-neural-sparse-encoding-doc-v2-distill](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-doc-v2-distill) | 0.504 | 0.690 | 0.343 | 0.528 | 0.675 | 0.357 | 0.496 | 0.287 | 0.418 | 0.166 | 0.818 | 0.224 | 0.715 | 0.841 | | [opensearch-neural-sparse-encoding-doc-v2-mini](https://huggingface.co/opensearch-project/opensearch-neural-sparse-encoding-doc-v2-mini) | 0.497 | 0.709 | 0.336 | 0.510 | 0.666 | 0.338 | 0.480 | 0.285 | 0.407 | 0.164 | 0.812 | 0.216 | 0.699 | 0.837 |
## License This project is licensed under the [Apache v2.0 License](https://github.com/opensearch-project/neural-search/blob/main/LICENSE). ## Copyright Copyright OpenSearch Contributors. See [NOTICE](https://github.com/opensearch-project/neural-search/blob/main/NOTICE) for details.