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Nougat for formula

We performed fune-tuning on small-sized Nougat model using data from IM2LATEX-100K to make it especially powerful in identifying formula from images.

Model Details

Model Description

Nougat for formula is good at identifying formula from images. It takes images with white backgroud and formula written in black as input and return with accurate Latex code for the formula.

The Naugat model (Neural Optical Understanding for Academic Documents) was proposed by Meta AI in August 2023 as a visual Transformer model for processing scientific documents. It can convert PDF format documents into Markup language, especially with good recognition ability for mathematical expressions and tables.The goal of this model is to improve the accessibility of scientific knowledge by bridging human readable documents with machine readable text.

Uses

Nougat for formula can be used as a tool for converting complicated formula to Latex code. It has potential to be a good substitute for other tools.

For example, when you are taking notes and tired at coding long Latex/Markdown formula code, just make a screen shot of them and put it into Nougat for formula. Then you can get the exact code for the formula as long as it won't exceed the max length of the model you use.

You can also continue fine-tuning the model to make it more powerful in identifying formulas from certain subjects.

Nougat for formula may be useful when developing tools or apps aiming at generating Latex code.

How to Get Started with the Model

Demo below shows how to input an image into the model and generate Latex/Markdown formula code.

from transformers import NougatProcessor, VisionEncoderDecoderModel
from PIL import Image

max_length = 100 # defing max length of output
processor = NougatProcessor.from_pretrained(r".", max_length = max_length) # Replace with your path 
model = VisionEncoderDecoderModel.from_pretrained(r".") # Replace with your path

image = Image.open(r"image_path") # Replace with your path
image = processor(image, return_tensors="pt").pixel_values # The processor will resize the image according to our model

result_tensor = model.generate(
            image,
            max_length=max_length,
            bad_words_ids=[[processor.tokenizer.unk_token_id]]
              ) # generate id tensor

result = processor.batch_decode(result_tensor, skip_special_tokens=True) # Using the processor to decode the result
result = processor.post_process_generation(result, fix_markdown=False)

print(*result)

Training Details

Training Data

IM2LATEX-100K

Preprocessing

The preprocessing of X(image) has been showed in the short demo above.

The preprocessing of Y(formula) is done by:

  1. Remove the space in the formula string.
  2. Using processor to tokenize the string.

Training Hyperparameters

  • Training regime: torch.optim.AdamW(model.parameters(), lr=1e-4)

Evaluation

Testing Data, Factors & Metrics

Testing Data

The tesing data is also taken from IM2LATEX-100K. Note that the train, validation and test data has been well split before downloading.

Metrics

BLEU and CER.

Results

The BLEU is 0.8157 and CER is 0.1601 on test data.

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