--- tags: - colpali - vidore license: mit datasets: - vidore/colpali_train_set language: - en base_model: - google/paligemma-3b-mix-448 --- # Model Card for Model ID This is a merged version of the Colpali adapter merged with base google/google/paligemma-3b-mix-448. This merge makes it easy to use with frameworks like candle that don't support LoRA adapters out-of-the-box. # ColPali: Visual Retriever based on PaliGemma-3B with ColBERT strategy ColPali is a model based on a novel model architecture and training strategy based on Vision Language Models (VLMs) to efficiently index documents from their visual features. It is a [PaliGemma-3B](https://huggingface.co/google/paligemma-3b-mix-448) extension that generates [ColBERT](https://arxiv.org/abs/2004.12832)- style multi-vector representations of text and images. It was introduced in the paper [ColPali: Efficient Document Retrieval with Vision Language Models](https://arxiv.org/abs/2407.01449) and first released in [this repository](https://github.com/ManuelFay/colpali)
## Model Description This model is built iteratively starting from an off-the-shelf [SigLIP](https://huggingface.co/google/siglip-so400m-patch14-384) model. We finetuned it to create [BiSigLIP](https://huggingface.co/vidore/bisiglip) and fed the patch-embeddings output by SigLIP to an LLM, [PaliGemma-3B](https://huggingface.co/google/paligemma-3b-mix-448) to create [BiPali](https://huggingface.co/vidore/bipali). One benefit of inputting image patch embeddings through a language model is that they are natively mapped to a latent space similar to textual input (query). This enables leveraging the [ColBERT](https://arxiv.org/abs/2004.12832) strategy to compute interactions between text tokens and image patches, which enables a step-change improvement in performance compared to BiPali. ## Model Training ### Dataset Our training dataset of 127,460 query-page pairs is comprised of train sets of openly available academic datasets (63%) and a synthetic dataset made up of pages from web-crawled PDF documents and augmented with VLM-generated (Claude-3 Sonnet) pseudo-questions (37%). Our training set is fully English by design, enabling us to study zero-shot generalization to non-English languages. We explicitly verify no multi-page PDF document is used both [*ViDoRe*](https://huggingface.co/collections/vidore/vidore-benchmark-667173f98e70a1c0fa4db00d) and in the train set to prevent evaluation contamination. A validation set is created with 2% of the samples to tune hyperparameters. *Note: Multilingual data is present in the pretraining corpus of the language model (Gemma-2B) and potentially occurs during PaliGemma-3B's multimodal training.* ### Parameters All models are trained for 1 epoch on the train set. Unless specified otherwise, we train models in `bfloat16` format, use low-rank adapters ([LoRA](https://arxiv.org/abs/2106.09685)) with `alpha=32` and `r=32` on the transformer layers from the language model, as well as the final randomly initialized projection layer, and use a `paged_adamw_8bit` optimizer. We train on an 8 GPU setup with data parallelism, a learning rate of 5e-5 with linear decay with 2.5% warmup steps, and a batch size of 32. ## Usage ### For best performance, newer models are available (vidore/colpali-v1.2) ```bash # This model checkpoint is compatible with version 0.1.1, but not more recent versions of the inference lib pip install colpali_engine==0.1.1 ``` ```python import torch import typer from torch.utils.data import DataLoader from tqdm import tqdm from transformers import AutoProcessor from PIL import Image from colpali_engine.models.paligemma_colbert_architecture import ColPali from colpali_engine.trainer.retrieval_evaluator import CustomEvaluator from colpali_engine.utils.colpali_processing_utils import process_images, process_queries from colpali_engine.utils.image_from_page_utils import load_from_dataset def main() -> None: """Example script to run inference with ColPali""" # Load model model_name = "akshayballal/colpali-merged" model = ColPali.from_pretrained("google/colpaligemma-3b-mix-448", torch_dtype=torch.bfloat16, device_map="cuda").eval() processor = AutoProcessor.from_pretrained(model_name) # select images -> load_from_pdf(