A Bayesian Optimization through Sequential Monte Carlo and Statistical Physics-Inspired Techniques

Anton Lebedev, Thomas Warford, M. Emre Şahin
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Abstract

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.
通过序列蒙特卡洛和统计物理学启发技术进行贝叶斯优化
在本文中,我们提出了一种使用序列蒙特卡罗(SMC)和经典系统统计物理学概念的贝叶斯优化应用方法。我们的方法利用了 NumPyro 和 JAX 等现代机器学习库的强大功能,使我们能够在多个平台(包括 CPU、GPU、TPU)上并行执行贝叶斯优化。我们的方法在保持高性能的同时,还降低了方法探索的入门门槛。我们提出了一个很有前途的方向,可以为不同领域中更广泛的优化问题开发更高效、更有效的技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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