Scikit-Optimize, or skopt
, is a simple and efficient library to
minimize (very) expensive and noisy black-box functions. It implements
several methods for sequential model-based optimization. skopt
aims
to be accessible and easy to use in many contexts.
The library is built on top of NumPy, SciPy and Scikit-Learn.
We do not perform gradient-based optimization. For gradient-based
optimization algorithms look at
scipy.optimize
here.
Approximated objective function after 50 iterations of gp_minimize
.
Plot made using skopt.plots.plot_objective
.
- Static documentation - Static documentation
- Example notebooks - can be found in examples.
- Issue tracker - https://github.com/scikit-optimize/scikit-optimize/issues
- Releases - https://pypi.python.org/pypi/scikit-optimize
scikit-optimize requires
- Python >= 3.6
- NumPy (>= 1.13.3)
- SciPy (>= 0.19.1)
- joblib (>= 0.11)
- scikit-learn >= 0.20
- matplotlib >= 2.0.0
You can install the latest release with:
pip install ft-scikit-optimize
This installs an essential version of scikit-optimize. To install scikit-optimize with plotting functionality, you can instead do:
pip install 'ft-scikit-optimize[plots]'
This will install matplotlib along with scikit-optimize.
In addition there is a conda-forge package of scikit-optimize:
conda install -c conda-forge scikit-optimize
Using conda-forge is probably the easiest way to install scikit-optimize on Windows.
Find the minimum of the noisy function f(x)
over the range
-2 < x < 2
with skopt
:
import numpy as np
from skopt import gp_minimize
def f(x):
return (np.sin(5 * x[0]) * (1 - np.tanh(x[0] ** 2)) +
np.random.randn() * 0.1)
res = gp_minimize(f, [(-2.0, 2.0)])
For more control over the optimization loop you can use the skopt.Optimizer
class:
from skopt import Optimizer
opt = Optimizer([(-2.0, 2.0)])
for i in range(20):
suggested = opt.ask()
y = f(suggested)
opt.tell(suggested, y)
print('iteration:', i, suggested, y)
Read our introduction to bayesian optimization and the other examples.
The library is still experimental and under heavy development. Checkout the next milestone for the plans for the next release or look at some easy issues to get started contributing.
The development version can be installed through:
git clone https://github.com/freqtrade/ft-scikit-optimize.git cd ft-scikit-optimize pip install -e.
Run all tests by executing pytest
in the top level directory.
To only run the subset of tests with short run time, you can use pytest -m 'fast_test'
(pytest -m 'slow_test'
is also possible). To exclude all slow running tests try pytest -m 'not slow_test'
.
This is implemented using pytest attributes. If a tests runs longer than 1 second, it is marked as slow, else as fast.
All contributors are welcome!
The release procedure is almost completely automated. By tagging a new release travis will build all required packages and push them to PyPI. To make a release create a new issue and work through the following checklist:
- update the version tag in
__init__.py
- update the version tag mentioned in the README
- check if the dependencies in
setup.py
are valid or need unpinning - check that the
doc/whats_new/v0.X.rst
is up to date - did the last build of master succeed?
- create a new release
- ping conda-forge
Before making a release we usually create a release candidate. If the next
release is v0.X then the release candidate should be tagged v0.Xrc1 in
__init__.py
. Mark a release candidate as a "pre-release"
on GitHub when you tag it.
Feel free to get in touch if you need commercial support or would like to sponsor development. Resources go towards paying for additional work by seasoned engineers and researchers.
The scikit-optimize project was made possible with the support of
If your employer allows you to work on scikit-optimize during the day and would like recognition, feel free to add them to the "Made possible by" list.