Combinatorial Parameterized Algorithms for Chemical Descriptors based on Molecular Graph Sparsity
March 23, 2023 Β· Declared Dead Β· π Latin-American Algorithms, Graphs and Optimization Symposium
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Authors
Giovanna K. Conrado, Amir K. Goharshady, Harshit J. Motwani, Sergei Novozhilov
arXiv ID
2303.13279
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.CC,
cs.DM
Citations
1
Venue
Latin-American Algorithms, Graphs and Optimization Symposium
Last Checked
4 months ago
Abstract
We present efficient combinatorial parameterized algorithms for several classical graph-based counting problems in computational chemistry, including (i) Kekule structures, (ii) the Hosoya index, (iii) the Merrifield-Simmons index, and (iv) Graph entropy based on matchings and independent sets. All these problems were known to be #P-complete. Building on the intuition that molecular graphs are often sparse and tree-like, we provide fixed-parameter tractable (FPT) algorithms using treewidth as our parameter. We also provide extensive experimental results over the entire PubChem database of chemical compounds, containing more than 113 million real-world molecules. In our experiments, we observe that the molecules are indeed sparse and tree-like, with more than 99.9% of them having a treewidth of at most 5. This justifies our choice of parameter. Our experiments also illustrate considerable improvements over the previous approaches. Based on these results, we argue that parameterized algorithms, especially based on treewidth, should be adopted as the default approach for problems in computational chemistry that are defined over molecular graphs.
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