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@misc{1401896, author = {Pazúriková, Jana and Oľha, Jaroslav and Křenek, Aleš and Spiwok, Vojtěch}, address = {arXiv}, keywords = {approximation, acceleration, molecular dynamics simulation, metadynamics}, location = {arXiv}, title = {Acceleration of Mean Square Distance Calculations with Floating Close Structure in Metadynamics Simulations}, url = {https://arxiv.org/abs/1801.02362}, year = {2018} }
TY - GEN ID - 1401896 AU - Pazúriková, Jana - Oľha, Jaroslav - Křenek, Aleš - Spiwok, Vojtěch PY - 2018 TI - Acceleration of Mean Square Distance Calculations with Floating Close Structure in Metadynamics Simulations VL - arXiv:1801.02362 CY - arXiv KW - approximation, acceleration, molecular dynamics simulation, metadynamics UR - https://arxiv.org/abs/1801.02362 N2 - Molecular dynamics simulates the movements of atoms. Due to its high cost, many methods have been developed to “push the simulation forward”. One of them, metadynamics, can hasten the molecular dynamics with the help of variables describing the simulated process. However, the evaluation of these variables can include numerous mean square distance calculations that introduce substantial computational demands, thus jeopardize the benefit of the approach. Recently, we proposed an approximative method that signifi- cantly reduces the number of these distance calculations. Here we evaluate the performance and the scalability on two molecular systems. We assess the maximal theoretical speed-up based on the reduction of distance compu- tations and Ahmdal’s law and compare it to the practical speed-up achieved with our implementation. ER -
PAZÚRIKOVÁ, Jana, Jaroslav OĽHA, Aleš KŘENEK and Vojtěch SPIWOK. \textit{Acceleration of Mean Square Distance Calculations with Floating Close Structure in Metadynamics Simulations}. arXiv, 2018, 22 pp. arXiv:1801.02362.
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