Awesome
Mixed-Integer Quadratic Program Solver Based on OSQP
miOSQP solves an mixed-integer quadratic programs (MIQPs) of the form
minimize 0.5 x' P x + q' x
subject to l <= A x <= u
x[i] in Z for i in i_idx
i_l[i] <= x[i] <= i_u[i] for i in i_idx
where i_idx is a vector of indices of which variables are integer and i_l, i_u are the lower and upper bounds on the integer variables respectively.
Installation
To install the package simply run
python setup.py install
it depends on OSQP, numpy and scipy.
Usage
To solve a MIQP we need to run
import miosqp
m = miosqp.MIOSQP()
m.setup(P, q, A, l, u, i_idx, i_l, i_u)
results = m.solve()
where P is a symmetric positive semidefinite matrix and A a matrix.
P and A are both in the scipy sparse CSC format.
The returned object results contains
x: the solutionupper_glob: the cost function upper boundrun_time: the solution timestatus: the statusosqp_solve_time: the OSQP solve time as a percentage of the total solution timeosqp_iter_avg: the OSQP average number of iterations for each QP sub-problem solution
Update problem vectors
Problem vectors can be updated without running the setup again. It can be done with
m.update_vectors(q=q_new, l=l_new, u=u_new)
Set initial solution guess
The initial guess can speedup the branch-and-bound algorithm significantly.
To set an initial feasible solution x0 we can run
m.set_x0(x0)
Citing
If you are using this package for your work, please cite the following paper:
@inproceedings{stellato2018,
author = {Stellato, B. and Naik, V. V. and Bemporad, A. and Goulart, P. and Boyd, S.},
title = {Embedded Mixed-Integer Quadratic Optimization Using the {OSQP} Solver},
booktitle = {European Control Conference ({ECC})},
year = {2018},
code = {https://github.com/oxfordcontrol/miosqp},
month = jul,
groups = {power electronics, integer programs}
}
Run examples
In order to run the examples from to compare with GUROBI, after installing the python insterface, you need to install mathprogbasepy. Examples can be found in the examples folder.
- Random MIQPs
- Power system example
Note that you need pandas package for storing the results dataframe and tqdm package for the progress bar.
<!-- ## Maximum number of iterations --> <!-- For some problem instances, OSQP reaches the maximum number of iterations. In order to deal with them, they are dumped to different files in the `max_iter_examples` folder. In order to load them separately and solve them with OSQP, you can run `examples/run_maxiter_problem.py` file. -->