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Nonconvex embedded optimization: code generation for fast real-time optimization

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Optimization Engine (OpEn) is a solver for Fast & Accurate Embedded Optimization for next-generation Robotics and Autonomous Systems.

Documentation available at alphaville.github.io/optimization-engine

Table of contents

Features

OpEn is the counterpart of CVXGen for nonconvex problems.

  • Fast nonconvex parametric optimization
  • Numerical algorithm written in Rust
  • Provably safe memory management
  • Auto-generation of ROS packages

OpEn is ideal for:

  • Embedded Nonlinear Model Predictive Control,
  • Embedded Nonlinear Moving Horizon Estimation and their applications in
  • Robotics and Advanced Manufacturing Systems
  • Autonomous vehicles
  • Aerial Vehicles and Aerospace

Demos

Code generation

Code generation? Piece of cake!

OpEn generates parametric optimizer modules in Rust - it's blazingly fast - it's safe - it can run on embedded devices.

You can use the MATLAB or Python interface of OpEn to generate Rust code for your parametric optimizer.

This can then be called directly, using Rust, or, it can be consumed as a service over a socket.

Easy Code Generation

You can generate a parametric optimizer in just very few lines of code and in no time.

OpEn allows application developers and researchers to focus on the challenges of the application, rather than the tedious task of solving the associated parametric optimization problems (as in nonlinear model predictive control).

Embedded applications

OpEn can run on embedded devices; here we see it running on an intel Atom for the autonomous navigation of a lab-scale micro aerial vehicle - the controller runs at 20Hz using only 15% CPU!

Fast NMPC of MAV

Parametric Problems

OpEn can solve nonconvex parametric optimization problems of the general form

standard parametric optimziation problem

where f is a smooth cost, U is a simple - possibly nonconvex - set, F1 and F2 are nonlinear smooth mappings and C is a convex set (read more).

Code Generation Example

Code generation in Python in just a few lines of code (read the docs for details)

import opengen as og
import casadi.casadi as cs

# Define variables
# ------------------------------------
u = cs.SX.sym("u", 5)
p = cs.SX.sym("p", 2)

# Define cost function and constraints
# ------------------------------------
phi = og.functions.rosenbrock(u, p)
f2 = cs.vertcat(1.5 * u[0] - u[1],
                cs.fmax(0.0, u[2] - u[3] + 0.1))
bounds = og.constraints.Ball2(None, 1.5)
problem = og.builder.Problem(u, p, phi) \
    .with_penalty_constraints(f2)       \
    .with_constraints(bounds)
    
# Configuration and code generation
# ------------------------------------
build_config = og.config.BuildConfiguration()  \
    .with_build_directory("python_test_build") \
    .with_tcp_interface_config()
meta = og.config.OptimizerMeta()
solver_config = og.config.SolverConfiguration()    \
    .with_tolerance(1e-5)                          \
    .with_constraints_tolerance(1e-4)
builder = og.builder.OpEnOptimizerBuilder(problem, meta,
                                          build_config, solver_config)
builder.build()

Code generation in a few lines of MATLAB code (read the docs for details)

% Define variables
% ------------------------------------
u = casadi.SX.sym('u', 5);
p = casadi.SX.sym('p', 2);

% Define cost function and constraints
% ------------------------------------
phi = rosenbrock(u, p);
f2 = [1.5*u(1) - u(2);
      max(0, u(3)-u(4)+0.1)];

bounds = OpEnConstraints.make_ball_at_origin(5.0);

opEnBuilder = OpEnOptimizerBuilder()...
    .with_problem(u, p, phi, bounds)...
    .with_build_name('penalty_new')...
    .with_fpr_tolerance(1e-5)...
    .with_constraints_as_penalties(f2);

opEnOptimizer = opEnBuilder.build();

Getting started

Contact us

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License

OpEn is a free open source project. You can use it under the terms of either Apache license v2.0 or MIT license.

Core Team


Pantelis Sopasakis

Emil Fresk

Contributions

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.

Before you contribute to Optimization Engine, please read our contributing guidelines.

A list of contributors is automatically generated by github here.

Citing OpEn

Please, cite OpEn as follows (arXiv version):

@inproceedings{open2020,
  author="P. Sopasakis and E. Fresk and P. Patrinos",
  title="{OpEn}: Code Generation for Embedded Nonconvex Optimization",
  booktitle="IFAC World Congress",
  year="2020",
  address="Berlin"
}

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Nonconvex embedded optimization: code generation for fast real-time optimization

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