torchdrug
БесплатноБез исполняемых скриптовНе проверенPyTorch-native graph neural networks for molecules and proteins. Use when building custom GNN architectures for drug discovery, protein modeling, or knowledge g
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TorchDrug
Overview
TorchDrug is a comprehensive PyTorch-based machine learning toolbox for drug discovery and molecular science. Apply graph neural networks, pre-trained models, and task definitions to molecules, proteins, and biological knowledge graphs, including molecular property prediction, protein modeling, knowledge graph reasoning, molecular generation, retrosynthesis planning, with 40+ curated datasets and 20+ model architectures.
When to Use This Skill
This skill should be used when working with:
Data Types:
- SMILES strings or molecular structures
- Protein sequences or 3D structures (PDB files)
- Chemical reactions and retrosynthesis
- Biomedical knowledge graphs
- Drug discovery datasets
Tasks:
- Predicting molecular properties (solubility, toxicity, activity)
- Protein function or structure prediction
- Drug-target binding prediction
- Generating new molecular structures
- Planning chemical synthesis routes
- Link prediction in biomedical knowledge bases
- Training graph neural networks on scientific data
Libraries and Integration:
- TorchDrug is the primary library
- Often used with RDKit for cheminformatics
- Compatible with PyTorch and PyTorch Lightning
- Integrates with AlphaFold and ESM for proteins
Getting Started
Installation
TorchDrug 0.2.1 (latest on PyPI, July 2023) requires Python 3.7–3.10 and PyTorch 1.8–2.0. Install PyTorch and torch-scatter / torch-cluster first (wheel URL depends on your PyTorch and CUDA versions — see installation docs).
uv pip install torch
# Match torch/CUDA in the URL, e.g. torch-2.0.0+cu118 or cpu
uv pip install torch-scatter torch-cluster -f https://pytorch-geometric.com/whl/torch-2.0.0+cu118.html
uv pip install torchdrug==0.2.1
On Apple Silicon, compile scatter/cluster from source; TorchDrug runs on CPU only (no MPS). Conda: conda install torchdrug -c milagraph -c conda-forge -c pytorch -c pyg.
Quick Example
import torch
from torchdrug import datasets, models, tasks
from torch.utils.data import DataLoader
# Load molecular dataset
dataset = datasets.BBBP("~/molecule-datasets/")
train_set, valid_set, test_set = dataset.split()
# Define GNN model
model = models.GIN(
input_dim=dataset.node_feature_dim,
hidden_dims=[256, 256, 256],
edge_input_dim=dataset.edge_feature_dim,
batch_norm=True,
readout="mean"
)
# Create property prediction task
task = tasks.PropertyPrediction(
model,
task=dataset.tasks,
criterion="bce",
metric=["auroc", "auprc"]
)
# Train with PyTorch
optimizer = torch.optim.Adam(task.parameters(), lr=1e-3)
train_loader = DataLoader(train_set, batch_size=32, shuffle=True)
for epoch in range(100):
for batch in train_loader:
loss = task(batch)
optimizer.zero_grad()
loss.backward()
optimizer.step()
Core Capabilities
1. Molecular Property Prediction
Predict chemical, physical, and biological properties of molecules from structure.
Use Cases:
- Drug-likeness and ADMET properties
- Toxicity screening
- Quantum chemistry properties
- Binding affinity prediction
Key Components:
- 20+ molecular datasets (BBBP, HIV, Tox21, QM9, etc.)
- GNN models (GIN, GAT, SchNet)
- PropertyPrediction and MultipleBinaryClassification tasks
Reference: See references/molecular_property_prediction.md for:
- Complete dataset catalog
- Model selection guide
- Training workflows and best practices
- Feature engineering details
2. Protein Modeling
Work with protein sequences, structures, and properties.
Use Cases:
- Enzyme function prediction
- Protein stability and solubility
- Subcellular localization
- Protein-protein interactions
- Structure prediction
Key Components:
- 15+ protein datasets (EnzymeCommission, GeneOntology, PDBBind, etc.)
- Sequence models (ESM, ProteinBERT, ProteinLSTM)
- Structure models (GearNet, SchNet)
- Multiple task types for different prediction levels
Reference: See references/protein_modeling.md for:
- Protein-specific datasets
- Sequence vs structure models
- Pre-training strategies
- Integration with AlphaFold and ESM
3. Knowledge Graph Reasoning
Predict missing links and relationships in biological knowledge graphs.
Use Cases:
- Drug repurposing
- Disease mechanism discovery
- Gene-disease associations
- Multi-hop biomedical reasoning
Key Components:
- General KGs (FB15k, WN18) and biomedical (Hetionet)
- Embedding models (TransE, RotatE, ComplEx)
- KnowledgeGraphCompletion task
Reference: See references/knowledge_graphs.md for:
- Knowledge graph datasets (including Hetionet with 45k biomedical entities)
- Embedding model comparison
- Evaluation metrics and protocols
- Biomedical applications
4. Molecular Generation
Generate novel molecular structures with desired properties.
Use Cases:
- De novo drug design
- Lead optimization
- Chemical space exploration
- Property-guided generation
Key Components:
- Autoregressive generation
- GCPN (policy-based generation)
- GraphAutoregressiveFlow
- Property optimization workflows
Reference: See references/molecular_generation.md for:
- Generation strategies (unconditional, conditional, scaffold-based)
- Multi-objective optimization
- Validation and filtering
- Integration with property prediction
5. Retrosynthesis
Predict synthetic routes from target molecules to starting materials.
Use Cases:
- Synthesis planning
- Route optimization
- Synthetic accessibility assessment
- Multi-step planning
Key Components:
- USPTO-50k reaction dataset
- CenterIdentification (reaction center prediction)
- SynthonCompletion (reactant prediction)
- End-to-end Retrosynthesis pipeline
Reference: See references/retrosynthesis.md for:
- Task decomposition (center ID → synthon completion)
- Multi-step synthesis planning
- Commercial availability checking
- Integration with other retrosynthesis tools
6. Graph Neural Network Models
Comprehensive catalog of GNN architectures for different data types and tasks.
Available Models:
- General GNNs: GCN, GAT, GIN, RGCN, MPNN
- 3D-aware: SchNet, GearNet
- Protein-specific: ESM, ProteinBERT, GearNet
- Knowledge graph: TransE, RotatE, ComplEx, SimplE
- Generative: GraphAutoregressiveFlow
Reference: See references/models_architectures.md for:
- Detailed model descriptions
- Model selection guide by task and dataset
- Architecture comparisons
- Implementation tips
7. Datasets
40+ curated datasets spanning chemistry, biology, and knowledge graphs.
Categories:
- Molecular properties (drug discovery, quantum chemistry)
- Protein properties (function, structure, interactions)
- Knowledge graphs (general and biomedical)
- Retrosynthesis reactions
Reference: See references/datasets.md for:
- Complete dataset catalog with sizes and tasks
- Dataset selection guide
- Loading and preprocessing
- Splitting strategies (random, scaffold)
Common Workflows
Workflow 1: Molecular Property Prediction
Scenario: Predict blood-brain barrier penetration for drug candidates.
Steps:
- Load dataset:
datasets.BBBP() - Choose model: GIN for molecular graphs
- Define task:
PropertyPredictionwith binary classification - Train with scaffold split for realistic evaluation
- Evaluate using AUROC and AUPRC
Navigation: references/molecular_property_prediction.md → Dataset selection → Model selection → Training
Workflow 2: Protein Function Prediction
Scenario: Predict enzyme function from sequence.
Steps:
- Load dataset:
datasets.EnzymeCommission() - Choose model: ESM (pre-trained) or GearNet (with structure)
- Define task:
PropertyPredictionwith multi-class classification - Fine-tune pre-trained model or train from scratch
- Evaluate using accuracy and per-class metrics
Navigation: references/protein_modeling.md → Model selection (sequence vs
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FAQ
Что делает скилл torchdrug?
PyTorch-native graph neural networks for molecules and proteins. Use when building custom GNN architectures for drug discovery, protein modeling, or knowledge graph reasoning. Best for custom model development, protein property prediction, retrosynthesis. For pre-trained models and diverse featurizers use deepchem; for benchmark datasets use pytdc.
Как установить скилл torchdrug?
Скопируй папку скилла в ~/.claude/skills (вкладка Claude Code выше делает это одной командой), либо поставь как плагин.
Скилл torchdrug запускает скрипты?
Нет, скилл состоит только из инструкций (SKILL.md), без исполняемых скриптов.
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