A library for to use Large Language Models (LLMs) as numericaloptimizers
Project description
LLMize
LLMize is a Python package that uses Large Language Models (LLMs) for multipurpose, numerical optimization tasks. It provides a flexible and efficient framework for solving various optimization problems using LLM-based approaches, with support for both maximization and minimization objectives.
Features
- LLM-Based Optimization: Utilizes LLM for iteratively generating and optimizing solutions, inspired by OPRO methods paper here
- Flexible Problem Definition: Supports both text-based problem descriptions and objective functions
- Parallel Processing: Built-in support for parallel evaluation of solutions
- Callback System: Extensible callback mechanism for monitoring and controlling the optimization process
- Early Stopping: Built-in early stopping mechanism to prevent overfitting
- Adaptive Temperature: Dynamic LLM temperature adjustment based on optimization progress
- Comprehensive Results: Detailed optimization results including best scores, solution history, and convergence metrics
Installation
To install LLMize, you can use pip:
pip install llmize
For development installation:
git clone https://github.com/yourusername/llmize.git
cd llmize
pip install -e .
Quick Start
Here's a simple example of how to use LLMize with OPRO approach:
from llmize import OPRO
import os
def obj_func(x):
if isinstance(x, list):
return (float(x[0]) + 2)**2 # Minimum at x=-2
else:
return (float(x) + 2)**2 # Minimum at x=-2
opro = OPRO(
problem_text="Minimize (x+2)^2",
obj_func=obj_func,
api_key=os.getenv("GEMINI_API_KEY")
)
init_samples = ["0", "1", "-1"]
init_scores = [4, 9, 1] # (0+2)^2, (1+2)^2, (-1+2)^2
result = opro.minimize(
init_samples=init_samples,
init_scores=init_scores,
num_steps=2,
batch_size=2
)
# Access results using the new OptimizationResult class
print(f"Best solution: {result.best_solution}")
print(f"Best score: {result.best_score}")
print(f"Convergence history: {result.best_score_history}")
print(f"Per-step scores: {result.best_score_per_step}")
Examples
The package includes several example implementations:
- Neural Network Hyperparameter Tuning: Optimize neural network architectures and hyperparameters
- Traveling Salesman Problem: Solve TSP using LLM-based optimization
- Linear Programming: Solve linear programming problems
- Convex Optimization: Handle convex optimization tasks
- Nuclear Fuel Optimization: Complex optimization in nuclear engineering paper here
Check the examples/ directory for detailed implementations.
Advanced Usage
Callbacks
LLMize supports custom callbacks for monitoring and controlling the optimization process:
from llmize.callbacks import EarlyStopping, AdaptTempOnPlateau
callbacks = [
EarlyStopping(patience=5),
AdaptTempOnPlateau(factor=0.5)
]
results = optimizer.maximize(
callbacks=callbacks,
# ... other parameters
)
Parallel Processing
Enable parallel evaluation of solutions:
results = optimizer.maximize(
parallel_n_jobs=4, # Number of parallel processes
# ... other parameters
)
Result Analysis
The new OptimizationResult class provides comprehensive optimization results:
# Access optimization results
print(f"Best solution: {results.best_solution}")
print(f"Best score: {results.best_score}")
print(f"Score history: {results.best_score_history}")
print(f"Per-step scores: {results.best_score_per_step}")
print(f"Average scores: {results.avg_score_per_step}")
print(f"Number of steps: {results.num_steps}")
print(f"Total time: {results.total_time} seconds")
Configuration
The optimizer can be configured with various parameters:
opro = OPRO(
problem_text="Your problem description",
obj_func=your_objective_function,
api_key=your_api_key,
temperature=0.7,
max_tokens=100,
# ... other parameters
)
Dependencies
- Python >= 3.8
- numpy >= 1.21.0
- google-generativeai >= 0.3.0
- colorama >= 0.4.6
- matplotlib >= 3.5.0
Contributing
Contributions are welcome! Please feel free to submit a Pull Request.
License
This project is licensed under the MIT License - see the LICENSE file for details.
Citation
If you use LLMize in your research, please cite:
@software{llmize2025,
author = {Your Name},
title = {LLMize: LLM-based Optimization Library},
year = {2025},
publisher = {GitHub},
url = {https://github.com/rizkiokt/llmize}
}
Contact
For questions, suggestions, or support, please contact:
- Email: rizki@bwailabs.com
- GitHub Issues: Open an issue
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