Anton Lebedev, Thomas Warford, M. Emre Şahin
Published 2024-09-04Version 1
In this paper, we propose an approach for an application of Bayesian optimization using Sequential Monte Carlo (SMC) and concepts from the statistical physics of classical systems. Our method leverages the power of modern machine learning libraries such as NumPyro and JAX, allowing us to perform Bayesian optimization on multiple platforms, including CPUs, GPUs, TPUs, and in parallel. Our approach enables a low entry level for exploration of the methods while maintaining high performance. We present a promising direction for developing more efficient and effective techniques for a wide range of optimization problems in diverse fields.
Comments: 8 pages, 7 figures, accepted to the International Conference on Computer Science 2023
Journal: Lecture Notes in Computer Science, vol 14077 (2023)
Posterior Exploration based Sequential Monte Carlo for Global Optimization
Sequential Monte Carlo with active subspaces
Finite Sample $L_2$ Bounds for Sequential Monte Carlo and Adaptive Path Selection
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