7/18/2023 0 Comments Define limbo![]() Bayesian approach to global optimization: theory and applications. BayesOpt: a Bayesian optimization library for nonlinear optimization, experimental design and bandits. In Proceedings of the the International Joint Conference on Artificial Intelligence (IJCAI), volume 7, 944–949. Automatic gait optimization with gaussian process regression. URL:, doi:10.1038/nature14422.ĭaniel J Lizotte, Tao Wang, Michael H Bowling, and Dale Schuurmans. ( 1, 2) Antoine Cully, Jeff Clune, Danesh Tarapore, and Jean-Baptiste Mouret. Reset-free Trial-and-Error Learning for Robot Damage Recovery. Konstantinos Chatzilygeroudis, Vassilis Vassiliades, and Jean-Baptiste Mouret. In IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). Black-Box Data-efficient Policy Search for Robotics. ( 1, 2) Konstantinos Chatzilygeroudis, Roberto Rama, Rituraj Kaushik, Dorian Goepp, Vassilis Vassiliades, and Jean-Baptiste Mouret. In International Conference on Robotics and Automation (ICRA). Using parameterized black-box priors to scale up model-based policy search for robotics. Konstantinos Chatzilygeroudis and Jean-Baptiste Mouret. A tutorial on bayesian optimization of expensive cost functions, with application to active user modeling and hierarchical reinforcement learning. Addison-Wesley, 2001.Įric Brochu, Vlad M Cora, and Nando De Freitas. ![]() Modern C++ design: generic programming and design patterns applied. Why do I get “: nlopt invalid argument”Īndrei Alexandrescu.Why am I getting “‘XXXLFOpt’ was never called!” errors?.Why am I getting “‘NoLFOpt’ should never be called!” assertion failure?.Using Limbo as an environment for scientific experiments.Introduction to Bayesian Optimization (BO).Limbo shares many ideas with Sferes2, a similar framework for evolutionary computation. It has been instrumental in many scientific publications since 2015. Limbo is currently used in the ERC project ResiBots, which is focused on data-efficient trial-and-error learning for robot damage recovery, and in the H2020 projet PAL, which uses social robots to help coping with diabetes. New contributors can rely on a full API reference, while their developments are checked via a continuous integration platform (automatic unit-testing routines). The code is standard-compliant but it is currently mostly developed for GNU/Linux and Mac OS X with both the GCC and Clang compilers. The library is distributed under the CeCILL-C license via a Github repository. Limbo takes advantage of multi-core architectures to parallelize the internal optimization processes (optimization of the acquisition function, optimization of the hyper-parameters of a Gaussian process) and it vectorizes many of the linear algebra operations (via the Eigen 3 library and optional bindings to Intel’s MKL). This design allows users to rapidly experiment and test new ideas while keeping the software as fast as specialized code. In practice, changing one of the components of the algorithms in Limbo (e.g., changing the acquisition function) usually requires changing only a template definition in the source code. ![]() The black-box optimization benchmarks demonstrate that Limbo is about 2 times faster than BayesOpt (a C++ library for data-efficient optimization, ) for a similar accuracy and data-efficiency. The regression benchmarks show that the query time of Limbo’s Gaussian processes is several orders of magnitude better than the one of GPy (a state-of-the-art Python library for Gaussian processes) for a similar accuracy (the learning time highly depends on the optimization algorithm chosen to optimize the hyper-parameters). The implementation of Limbo follows a policy-based design that leverages C++ templates: this allows it to be highly flexible without the cost induced by classic object-oriented designs (cost of virtual functions). For example, Limbo was the key library to develop a new algorithm that allows a legged robot to learn a new gait after a mechanical damage in about 10-15 trials (2 minutes), and a 4-DOF manipulator to learn neural networks policies for goal reaching in about 5 trials. Limbo is currently mostly used for data-efficient policy search in robot learning and online adaptation because computation time matters when using the low-power embedded computers of robots. It can be used as a state-of-the-art optimization library or to experiment with novel algorithms with “plugin” components. Limbo (LIbrary for Model-Based Optimization) is an open-source C++11 library for Gaussian Processes and data-efficient optimization (e.g., Bayesian optimization, see ) that is designed to be both highly flexible and very fast.
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