6533b86dfe1ef96bd12ca90b

RESEARCH PRODUCT

Advances in the enumeration of foldable self-avoiding walks

Jacques Bou AbdoChristophe GuyeuxJean Claude CharrJacques Demerjian

subject

Hexagonal crystal systemComputer sciencebusiness.industry[INFO.INFO-SE] Computer Science [cs]/Software Engineering [cs.SE][INFO.INFO-IU] Computer Science [cs]/Ubiquitous ComputingUpper and lower boundsParallel genetic algorithmComputational MathematicsSoftwareComputational Theory and MathematicsHardware and ArchitectureModeling and Simulation[INFO.INFO-ET] Computer Science [cs]/Emerging Technologies [cs.ET]Genetic algorithm[INFO.INFO-DC] Computer Science [cs]/Distributed Parallel and Cluster Computing [cs.DC]Enumeration[INFO.INFO-MA] Computer Science [cs]/Multiagent Systems [cs.MA][INFO.INFO-MO] Computer Science [cs]/Modeling and SimulationbusinessAlgorithmSoftware[INFO.INFO-CR] Computer Science [cs]/Cryptography and Security [cs.CR]

description

<font color="#336633"&gtSelf-avoiding walks (SAWs) have been studied for a long time due to their intrinsic importance and the many application fields in which they operate. A new subset of SAWs, called foldable SAWs, has recently been discovered when investigating two different SAW manipulations embedded within existing protein structure prediction (PSP) software. Since then, several attempts have been made to find out more about these walks, including counting them. However, calculating the number of foldable SAWs appeared as a tough work, and current supercomputers fail to count foldable SAWs of length exceeding ≈ 30 steps. In this article, we present new progress in this enumeration, both theoretical (mathematics) and practical (computer science). A lower bound for the number of foldable SAWs is firstly proposed, by studying a special subset called prudent SAWs that is better known. The triangular and hexagonal lattices are then investigated for the first time, leading to new results about the enumeration of foldable SAWs on such lattices. Finally, a parallel genetic algorithm has been designed to discover new non-foldable SAWs of lengths ≈ 100 steps, and the results obtained with this algorithm are promising</font&gt

yearjournalcountryeditionlanguage
2020-01-01International Journal of Computational Science and Engineering
https://doi.org/10.1504/ijcse.2020.109398