In this work, we developed a white-box surrogate model approach that expedites the the most computationally intensive element of the RPA simulation that relies only on two parameters that we predict with a parallel partial Gaussian process (PP-GP) surrogate model.
The white-box approach is over 100 times faster than direct simulation while still being over 99.9 % accurate in phase prediction based on only 50 training data points over the entire input space with 13 dimensions. Leveraging this tool, permits researchers to rapidly predict phase boundaries of charged polymers and efficiently screen the high-dimensional input space of charged polymers.
Ellis, Fang, Balzer, Quah, Shell, Fredrickson, Gu, Fast Phase Prediction Of Charged Polymer Blends By White-box Machine Learning Surrogates, Macromolecules 59 (2025) 202950–202959. DOI: 10.1021/acs.macromol.5c02482
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Fast Phase Prediction of Charged Polymer Blends by White-Box Machine Learning Surrogates
Materials Research Science and Engineering Center at UCSB
The NSF Materials Research Science and Engineering Center at UC Santa Barbara develops and sustains a productive, collaborative, and engaged community that drives a portfolio of transformative materials research and empowers a diverse workforce.