biomed.sm.mv-te-84m / README.md
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metadata
library_name: SmallMoleculeMultiView
license: apache-2.0
tags:
  - chemistry
  - model_hub_mixin
  - molecules
  - multiview
  - pytorch
  - pytorch_model_hub_mixin

sm.mv.te.84m

SmallMoleculeMultiView, multi-view molecular foundation model.

Model Description

This model contains the implementation of the Multi-view Molecular Embedding with Late Fusion (MMELON) architecture. MMELON combines molecular representations from three views — image, 2-dimensional chemically-bonded graph, and text (SMILES) —to learn a joint embedding that can be finetuned for downstream tasks in chemical and biological property prediction.

It was introduced in the paper Multi-view biomedical foundation models for molecule-target and property prediction by authors and first released in this repository.

SmallMoleculeMultiView Overview

  • Image Representation: Captures the 2D visual depiction of molecular structures, highlighting features like symmetry, bond angles, and functional groups. Molecular images are generated using RDKit and undergo data augmentation during training to enhance robustness.
  • Graph Representation: Encodes molecules as undirected graphs where nodes represent atoms and edges represent bonds. Atom-specific properties (e.g., atomic number, chirality) and bond-specific properties (e.g., bond type, stereochemistry) are embedded using categorical embedding techniques.
  • Text Representation: Utilizes SMILES strings to represent chemical structures, tokenized with a custom tokenizer. The sequences are embedded using a transformer-based architecture to capture the sequential nature of the chemical information.

The embeddings from these single-view pre-trained encoders are combined using an attention-based aggregator module. This module learns to weight each view appropriately, producing a unified multi-view embedding. This approach leverages the strengths of each representation to improve performance on downstream predictive tasks.

Usage

Using SmallMoleculeMultiView requires https://github.com/BiomedSciAI/biomed.multi-view

Installation

Follow these steps to set up the biomed.multi-view codebase on your system.

Prerequisites

  • Operating System: Linux or macOS
  • Python Version: Python 3.11
  • Conda: Anaconda or Miniconda installed
  • Git: Version control to clone the repository

Step 1: Set up the project directory

Choose a root directory where you want to install biomed.multi-view. For example:

export ROOT_DIR=~/biomed-multiview
mkdir -p $ROOT_DIR

Step 2: Install anaconda3

If you have Anconda in your system you can skip this step.

cd $ROOT_DIR
# Download the Anaconda installer
wget https://repo.anaconda.com/archive/Anaconda3-2023.03-Linux-x86_64.sh

# Run the installer
bash Anaconda3-2023.03-Linux-x86_64.sh
# After installation, initialize Conda:
source activate $ROOT_DIR/anaconda3/bin/activate

Step 3: Create and activate a Conda environment

conda create -y python=3.11 --prefix $ROOT_DIR/envs/biomed-multiview

Activate the environment:

conda activate $ROOT_DIR/envs/biomed-multiview

Step 4: Clone the repository

Navigate to the project directory and clone the repository:

mkdir -p $ROOT_DIR/code
cd $ROOT_DIR/code

# Clone the repository using HTTPS
git clone https://github.com/BiomedSciAI/biomed.multi-view.git

# Navigate into the cloned repository
cd biomed.multi-view

Note: If you prefer using SSH, ensure that your SSH keys are set up with GitHub and use the following command:

git clone git@github.com:BiomedSciAI/biomed.multi-view.git

Step 5: Install package dependencies

Install the package in editable mode along with development dependencies:

pip install -e .['dev']

Install additional requirements:

pip install -r requirements.txt

Step 6: macOS-Specific instructions (Apple Silicon)

If you are using a Mac with Apple Silicon (M1/M2/M3) and the zsh shell, you may need to disable globbing for the installation command:

noglob pip install -e .[dev]

Install macOS-specific requirements optimized for Apple’s Metal Performance Shaders (MPS):

pip install -r requirements-mps.txt

Step 7: Installation verification (optional)

Verify that the installation was successful by running unit tests

python -m unittest bmfm_sm.tests.all_tests

Usage example

A simple example:

# Necessary imports
from bmfm_sm.api.smmv_api import SmallMoleculeMultiViewModel
from bmfm_sm.core.data_modules.namespace import LateFusionStrategy

# Load Model
model = SmallMoleculeMultiViewModel.from_pretrained(
    LateFusionStrategy.ATTENTIONAL,
    model_path="ibm/biomed.sm.mv-te-84m",
    huggingface=True
)

# Load Model and get embeddings for a molecule
example_smiles = "CC(C)CC1=CC=C(C=C1)C(C)C(=O)O"
example_emb = SmallMoleculeMultiViewModel.get_embeddings(
    smiles=example_smiles,
    model_path="ibm/biomed.sm.mv-te-84m",
    huggingface=True,
)
print(example_emb.shape)

For more advanced usage, see our detailed examples at: https://github.com/BiomedSciAI/biomed.multi-view

Citation

If you found our work useful, please consider to give a star to the repo and cite our paper:

@article{TBD,
  title={TBD},
  author={IBM Research Team},
  jounal={arXiv preprint arXiv:TBD},
  year={2024}
}