pyGPGO: Bayesian Optimization for Python
pyGPGO is a simple and modular Python (>3.5) package for bayesian optimization.
Bayesian optimization is a framework that can be used in situations where:
- Your objective function may not have a closed form. (e.g. the result of a simulation)
- No gradient information is available.
- Function evaluations may be noisy.
- Evaluations are expensive (time/cost-wise)
Installation
Retrieve the latest stable release from pyPI:
pip install pyGPGO
Or if you're feeling adventurous, retrieve it from this repo,
pip install git+https://github.com/hawk31/pyGPGO
Check our documentation in http://pygpgo.readthedocs.io/.
Features
- Different surrogate models: Gaussian Processes, Student-t Processes, Random Forests, Gradient Boosting Machines.
- Type II Maximum-Likelihood of covariance function hyperparameters.
- MCMC sampling for full-Bayesian inference of hyperparameters (via
pyMC3
). - Integrated acquisition functions
A small example!
The user only has to define a function to maximize and a dictionary specifying input space.
import numpy as np
from pyGPGO.covfunc import matern32
from pyGPGO.acquisition import Acquisition
from pyGPGO.surrogates.GaussianProcess import GaussianProcess
from pyGPGO.GPGO import GPGO
def f(x, y):
# Franke's function (https://www.mathworks.com/help/curvefit/franke.html)
one = 0.75 * np.exp(-(9 * x - 2) ** 2 / 4 - (9 * y - 2) ** 2 / 4)
two = 0.75 * np.exp(-(9 * x + 1) ** 2/ 49 - (9 * y + 1) / 10)
three = 0.5 * np.exp(-(9 * x - 7) ** 2 / 4 - (9 * y -3) ** 2 / 4)
four = 0.25 * np.exp(-(9 * x - 4) ** 2 - (9 * y - 7) ** 2)
return one + two + three - four
cov = matern32()
gp = GaussianProcess(cov)
acq = Acquisition(mode='ExpectedImprovement')
param = {'x': ('cont', [0, 1]),
'y': ('cont', [0, 1])}
np.random.seed(1337)
gpgo = GPGO(gp, acq, f, param)
gpgo.run(max_iter=10)
Check the tutorials
and examples
folders for more ideas on how to use the software.
Citation
If you use pyGPGO in academic work please cite:
Jiménez, J., & Ginebra, J. (2017). pyGPGO: Bayesian Optimization for Python. The Journal of Open Source Software, 2, 431.