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Genetic algorithms for computational materials discovery accelerated by machine learning
Genetic algorithms for computational materials discovery accelerated by machine learning
by Bligaard, Thomas , Lysgaard Steen , Hummelshøj, Jens Strabo , Jennings, Paul C , Vegge Tejs
in Algorithms / Artificial intelligence / Binary alloys / Catalysts / Computer applications / Datasets / Density functional theory / Genetic algorithms / Learning algorithms / Machine learning / Nanoalloys / Nanoparticles / Search algorithms
2019
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Genetic algorithms for computational materials discovery accelerated by machine learning
by Bligaard, Thomas , Lysgaard Steen , Hummelshøj, Jens Strabo , Jennings, Paul C , Vegge Tejs
in Algorithms / Artificial intelligence / Binary alloys / Catalysts / Computer applications / Datasets / Density functional theory / Genetic algorithms / Learning algorithms / Machine learning / Nanoalloys / Nanoparticles / Search algorithms
2019
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Genetic algorithms for computational materials discovery accelerated by machine learning
Genetic algorithms for computational materials discovery accelerated by machine learning
by Bligaard, Thomas , Lysgaard Steen , Hummelshøj, Jens Strabo , Jennings, Paul C , Vegge Tejs
in Algorithms / Artificial intelligence / Binary alloys / Catalysts / Computer applications / Datasets / Density functional theory / Genetic algorithms / Learning algorithms / Machine learning / Nanoalloys / Nanoparticles / Search algorithms
2019

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Genetic algorithms for computational materials discovery accelerated by machine learning
Genetic algorithms for computational materials discovery accelerated by machine learning
Journal Article

Genetic algorithms for computational materials discovery accelerated by machine learning

Bligaard, Thomas,
Lysgaard Steen,
Hummelshøj, Jens Strabo,
Jennings, Paul C,
Vegge Tejs
2019
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Overview
Materials discovery is increasingly being impelled by machine learning methods that rely on pre-existing datasets. Where datasets are lacking, unbiased data generation can be achieved with genetic algorithms. Here a machine learning model is trained on-the-fly as a computationally inexpensive energy predictor before analyzing how to augment convergence in genetic algorithm-based approaches by using the model as a surrogate. This leads to a machine learning accelerated genetic algorithm combining robust qualities of the genetic algorithm with rapid machine learning. The approach is used to search for stable, compositionally variant, geometrically similar nanoparticle alloys to illustrate its capability for accelerated materials discovery, e.g., nanoalloy catalysts. The machine learning accelerated approach, in this case, yields a 50-fold reduction in the number of required energy calculations compared to a traditional “brute force” genetic algorithm. This makes searching through the space of all homotops and compositions of a binary alloy particle in a given structure feasible, using density functional theory calculations.
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Publisher
Nature Publishing Group
Subject

Algorithms

/ Artificial intelligence

/ Binary alloys

/ Catalysts

/ Computer applications

/ Datasets

/ Density functional theory

/ Genetic algorithms

/ Learning algorithms

/ Machine learning

/ Nanoalloys

/ Nanoparticles

/ Search algorithms

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