--- pipeline_tag: sentence-similarity tags: - feature-extraction - sentence-similarity language: - en --- # Model Card for `vectorizer-v1-S-en` This model is a vectorizer developed by Sinequa. It produces an embedding vector given a passage or a query. The passage vectors are stored in our vector index and the query vector is used at query time to look up relevant passages in the index. Model name: `vectorizer-v1-S-en` ## Supported Languages The model was trained and tested in the following languages: - English ## Scores | Metric | Value | |:-----------------------|------:| | Relevance (Recall@100) | 0.456 | Note that the relevance score is computed as an average over 14 retrieval datasets (see [details below](#evaluation-metrics)). ## Inference Times | GPU | Quantization type | Batch size 1 | Batch size 32 | |:------------------------------------------|:------------------|---------------:|---------------:| | NVIDIA A10 | FP16 | 1 ms | 4 ms | | NVIDIA A10 | FP32 | 2 ms | 13 ms | | NVIDIA T4 | FP16 | 1 ms | 13 ms | | NVIDIA T4 | FP32 | 2 ms | 52 ms | | NVIDIA L4 | FP16 | 1 ms | 5 ms | | NVIDIA L4 | FP32 | 2 ms | 18 ms | ## Gpu Memory usage | Quantization type | Memory | |:-------------------------------------------------|-----------:| | FP16 | 300 MiB | | FP32 | 500 MiB | Note that GPU memory usage only includes how much GPU memory the actual model consumes on an NVIDIA T4 GPU with a batch size of 32. It does not include the fix amount of memory that is consumed by the ONNX Runtime upon initialization which can be around 0.5 to 1 GiB depending on the used GPU. ## Requirements - Minimal Sinequa version: 11.10.0 - Minimal Sinequa version for using FP16 models and GPUs with CUDA compute capability of 8.9+ (like NVIDIA L4): 11.11.0 - [Cuda compute capability](https://developer.nvidia.com/cuda-gpus): above 5.0 (above 6.0 for FP16 use) ## Model Details ### Overview - Number of parameters: 29 million - Base language model: [English BERT-Small](https://huggingface.co/google/bert_uncased_L-4_H-512_A-8) - Insensitive to casing and accents - Output dimensions: 256 (reduced with an additional dense layer) - Training procedure: A first model was trained with query-passage pairs, using the in-batch negative strategy with [this loss](https://www.sbert.net/docs/package_reference/losses.html#multiplenegativesrankingloss). A second model was then trained on query-passage-negative triplets with negatives mined from the previous model, like a variant of [ANCE](https://arxiv.org/pdf/2007.00808.pdf) but with different hyper parameters. ### Training Data The model was trained on a Sinequa curated version of Google's [Natural Questions](https://ai.google.com/research/NaturalQuestions). ### Evaluation Metrics To determine the relevance score, we averaged the results that we obtained when evaluating on the datasets of the [BEIR benchmark](https://github.com/beir-cellar/beir). Note that all these datasets are in English. | Dataset | Recall@100 | |:------------------|-----------:| | Average | 0.456 | | | | | Arguana | 0.832 | | CLIMATE-FEVER | 0.342 | | DBPedia Entity | 0.299 | | FEVER | 0.660 | | FiQA-2018 | 0.301 | | HotpotQA | 0.434 | | MS MARCO | 0.610 | | NFCorpus | 0.159 | | NQ | 0.671 | | Quora | 0.966 | | SCIDOCS | 0.194 | | SciFact | 0.592 | | TREC-COVID | 0.037 | | Webis-Touche-2020 | 0.285 |