Characterizing Tradeoffs in Memory, Accuracy, and Speed for Chemistry Tabulation Techniques

Elizabeth Armstrong; John C. Hewson; James C. Sutherland

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Characterizing Tradeoffs in Memory, Accuracy, and Speed for Chemistry Tabulation Techniques

机译：Characterizing Tradeoffs in Memory, Accuracy, and Speed for Chemistry Tabulation Techniques

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Chemistry tabulation is a common approach in practical simulations of turbulent combustion at engineering scales. Linear inter-polants have traditionally been used for accessing precomputed multidimensional tables but suffer from large memory requirements and discontinuous derivatives. Higher-degree interpolants address some of these restrictions but are similarly limited to relatively low-dimensional tabulation. Artificial neural networks (ANNs) can be used to overcome these limitations but cannot guarantee the same accuracy as interpolants and introduce challenges in reproducibility and reliable training. These challenges are enhanced as the physics complexity to be represented within the tabulation increases. In this manuscript, we assess the efficiency, accuracy, and memory requirements of Lagrange polynomials, tensor product B-splines, and ANNs as tabulation strategies. We analyze results in the context of nonadiabatic flamelet modeling where higher dimension counts are necessary. While ANNs do not require structuring of data, providing benefits for complex physics representation, interpolation approaches often rely on some structuring of the table. Interpolation using structured table inputs that are not directly related to the variables transported in a simulation can incur additional query costs. This is demonstrated in the present implementation of heat losses. We show that ANNs, despite being difficult to train and reproduce, can be advantageous for high-dimensional, unstructured datasets relevant to nonadiabatic flamelet models. We also demonstrate that Lagrange polynomials show significant speedup for similar accuracy compared to B-splines.

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《Combustion science and technology》 |2023年第12期|2614-2633|共20页
作者
Elizabeth Armstrong; John C. Hewson; James C. Sutherland;
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Department of Chemical Engineering, University of Utah, Salt Lake City, Utah, USA;

Fire Sciences and Engineering Department, Sandia National Laboratories, Albuquerque, New Mexico, USA;

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正文语种英语
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Chemistry tabulation; artificial neural networks; interpolation; nonadiabatic flamelet;

Characterizing Tradeoffs in Memory, Accuracy, and Speed for Chemistry Tabulation Techniques

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