Agent-based Modeling with Blazingly Efficient Records
Project description
AMBER (Agent-based Modeling with Blazingly Efficient Records)
AMBER is a Python framework for agent-based modeling that uses Polars for efficient data handling and analysis. AMBER provides a clean, robust API for creating parallel, high-performance simulations in Python.
🚀 Performance
AMBER achieves high performance through its columnar memory layout (SoA), KD-Trees, and SIMD-vectorized operations.
Benchmark vs Other Frameworks (5,000 Agents, 100 Steps)
| Framework | Language | Architecture | Speed Rank |
|---|---|---|---|
| Agents.jl | Julia | Vectorized | 🥇 1st (0.02s - 0.9s) |
| AMBER | Python | Vectorized | 🥈 2nd (0.1s - 2.3s) |
| SimPy (Dense) | Python | Process/DES | 🥉 3rd (0.3s - 4.3s) |
| Melodie | Python | Hybrid | 4th (0.4s - 20s) |
| AgentPy | Python | Object | 5th (2s - 30s) |
| Mesa | Python | Object | 6th (50s - 30s) |
*SimPy is exceptionally fast for sparse models (like SIR) due to its event-driven nature, but AMBER is faster for dense/movement-heavy models.
AMBER is the state-of-the-art for dense simulation in Python, while SimPy offers an alternative for event-driven logic.
🚀 Quick Start
import ambr as am
# Define a custom agent
class MyAgent(am.Agent):
def setup(self):
self.value = self.p.initial_value
def step(self):
self.value += self.model.random.randint(-1, 2)
self.record('value', self.value)
# Define a model
class MyModel(am.Model):
def setup(self):
self.agents = am.AgentList(self, self.p.agents, MyAgent)
def step(self):
self.agents.call('step')
def update(self):
super().update()
self.agents.record('value')
# Run a simulation
parameters = {
'agents': 10,
'initial_value': 5,
'steps': 100
}
model = MyModel(parameters)
results = model.run()
⚡ Advanced: Vectorized Updates
For maximum performance, access the underlying Population manager to perform SIMD-vectorized state updates, bypassing Python loop overhead:
def step(self):
# Create a batch update context
with self.population.create_batch_context() as batch:
# Queue updates logic (executed in Rust/Polars)
batch.add_update(target_ids, 'wealth', 1)
batch.add_update(source_ids, 'wealth', -1)
# State is applied atomically here
🔬 Optimization
AMBER includes powerful optimization capabilities for parameter tuning:
from ambr.optimization import ParameterSpace, grid_search
# Define parameter space
parameter_space = ParameterSpace({
'agents': [10, 50, 100],
'initial_value': [1, 5, 10],
'steps': 100
})
# Run optimization
results = grid_search(MyModel, parameter_space, 'some_metric')
best_params = results[0]['parameters']
📦 Installation
pip install ambr
🏗️ Features
- Simple API: Intuitive interface for agent-based modeling
- High Performance: Efficient data handling with Polars DataFrames
- Optimization: Built-in parameter optimization with grid search, random search, and Bayesian optimization
- Environments: Support for grid, network, and continuous space environments
- Experiments: Run multiple simulations with parameter sampling
- Random Number Generation: Reproducible simulations with controlled randomness
📚 Examples
Working examples are available in the examples/ directory:
- Wealth Transfer Model: Economic inequality simulation
- Virus Spread Model: Epidemiological SIR model
- Flocking Simulation: Boids flocking behavior
- Forest Fire Model: Cellular automata fire spread
- Network Simulations: Graph-based agent interactions
📖 Documentation
- Documentation: https://ambr.readthedocs.io/
- Paper: https://arxiv.org/abs/2601.16292
📝 How to cite?
If you use AMBER in your research, please cite our paper:
@article{pham2026amber,
title={AMBER: A Columnar Architecture for High-Performance Agent-Based Modeling in Python},
author={Pham, Anh-Duy},
journal={arXiv preprint arXiv:2601.16292},
year={2026}
}
🤝 Contributing
We welcome contributions! Please see our contributing guidelines for more information.
📄 License
This project is licensed under the BSD 3-Clause License - see the LICENSE file for details.
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