在组合空间中高效生成网格和遍历图,实现探索和路径规划

Adam M. Krajewski, Allison M. Beese, Wesley F. Reinhart, Zi-Kui Liu
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摘要

科学和工程领域的多个学科都在处理与组合相关的问题,这些问题存在于非欧几里得单纯形空间中,导致许多标准工具不准确或效率低下。这项研究从概念上探索了材料发现背景下的这类空间,量化了其计算可行性,并通过一个新的高性能开源库 nimplex 实现了几种针对单纯形空间的基本方法。最重要的是,我们推导并实现了一种构建新颖的 n 维单纯形图数据结构的算法,其中包含所有离散化组合和可能的邻域到邻域转换。重要的是,该算法不进行距离或邻域计算,而是利用纯粹的组合学和程序化生成的单纯形网格中的秩序,保持算法 $${mathcal{O}}(N)$$ 的最小内存,从而能够在数秒内快速构建具有数十亿次转换的图形。此外,我们还展示了如何将这种图表示法结合起来,同质地表达复杂的路径规划问题,同时促进现有高性能梯度下降、图遍历和其他优化算法的高效部署。
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Efficient generation of grids and traversal graphs in compositional spaces towards exploration and path planning
Diverse disciplines across science and engineering deal with problems related to compositions, which exist in non-Euclidean simplex spaces, rendering many standard tools inaccurate or inefficient. This work explores such spaces conceptually in the context of materials discovery, quantifies their computational feasibility, and implements several essential methods specific to simplex spaces through a new high-performance open-source library nimplex. Most significantly, we derive and implement an algorithm for constructing a novel n-dimensional simplex graph data structure, containing all discretized compositions and possible neighbor-to-neighbor transitions. Critically, no distance or neighborhood calculations are performed, instead leveraging pure combinatorics and order in procedurally generated simplex grids, keeping the algorithm $${\mathcal{O}}(N)$$ , with minimal memory, enabling rapid construction of graphs with billions of transitions in seconds. Additionally, we demonstrate how such graph representations can be combined to homogeneously express complex path-planning problems, while facilitating efficient deployment of existing high-performance gradient descent, graph traversal, and other optimization algorithms.
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