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adham-elaraby/Deka-BERT-Transformer

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DekaBank-BERT-Transformer: Fine-Tuning and Evaluation

(From a Hackathon hosted by Deka)

Overview

This repository contains a Jupyter Notebook that demonstrates the fine-tuning and evaluation of a BERT-based model for sequence classification tasks using PyTorch and Hugging Face's Transformers library. The notebook walks through the process of training a BERT model on a custom dataset, monitoring the training process, and evaluating model performance using accuracy metrics.

This notebook is from my participation at a workshop event at Deka, and was intended for educational purposes only.

Contents

  1. Setup and Configuration
  2. Data Preparation
  3. Model Training
  4. Model Evaluation
  5. Results and Analysis

Setup

Prerequisites

Ensure you have the following Python packages installed:

  • numpy
  • pandas
  • torch
  • transformers
  • keras
  • matplotlib
  • scikit-learn

Configuration

  1. Reproducibility: The notebook sets seeds for random, numpy, and torch to ensure reproducibility across different runs. The seed value used is 42.

  2. Data Preparation: The notebook assumes you have a dataset ready for training and validation. The data should be preprocessed and loaded into PyTorch DataLoaders.

Usage

Running the Notebook

  1. Load the Notebook: Open the Jupyter Notebook file (.ipynb) in your Jupyter environment.

  2. Adjust Hyperparameters: Modify parameters such as the number of epochs, learning rate, and batch size according to your needs.

  3. Execute Cells: Run all the cells in the notebook to execute the training and evaluation pipeline.

Code Sections

  1. Data Preparation:

    • Tokenization: Convert text data into input IDs and attention masks suitable for BERT.
    • DataLoaders: Create PyTorch DataLoaders for batching and shuffling training and validation data.
  2. Model Training:

    • Initialization: Load a pre-trained BERT model and configure the optimizer and learning rate scheduler.
    • Training Loop: Perform fine-tuning by iterating over the training data, calculating loss, and updating model parameters using backpropagation.
  3. Model Evaluation:

    • Validation: Evaluate the model on the validation dataset to measure performance.
    • Accuracy Calculation: Use a custom accuracy function to compute the proportion of correct predictions.

Results and Analysis

  • Training Loss: Monitored during each epoch to observe the convergence of the model.
  • Validation Accuracy: Calculated at the end of each epoch to evaluate the model's performance on unseen data.
  • Matthews Correlation Coefficient (MCC): In the end we managed to achieve a MCC of ~0.375 which is decent considering we didnt do any hyperparamater tuning.

Acknowledgments

  • Hugging Face: For providing the BERT model and Transformers library.
  • PyTorch: For its deep learning framework that enables efficient training and evaluation.
  • Deka
  • Chris McCormick's Blog

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