TY - JOUR
T1 - Efficiency of particle search methods in smoothed particle hydrodynamics
T2 - a comparative study (part I)
AU - Plaza, E.
AU - Di Sigalotti, Leonardo G.
AU - Pérez, Luis
AU - Troconis, Jorge
AU - Angulo, Wilfredo
AU - Castro, María
N1 - Publisher Copyright:
Copyright © 2021 Inderscience Enterprises Ltd.
PY - 2021
Y1 - 2021
N2 - Nearest neighbour searching is central to the efficiency of smoothed particle hydrodynamics (SPH). Here the performance of the brute force (BF) or direct search (DS), the cell-linked list (CLL), and the KD-tree (KDT) methods in vectorised form are analysed. The results indicate that the efficiency of the SPH calculations is improved with the vectorised cell-linked list (VCLL) and the vectorised KD-tree (VKDT). However, the VKDT approach is more efficient than the VCLL method for N ≤ 105 in two dimensions (2D) and N ≤ 106 in three dimensions (3D). For larger N, the time duration of the SPH calculations with the VKDT method grows steeply while a linear trend is maintained with the VCLL. The complexity here is measured not only for early events but also close to the point of hardware limit, in which the complexity has a different behaviour, which can be measured and compared using a power fit.
AB - Nearest neighbour searching is central to the efficiency of smoothed particle hydrodynamics (SPH). Here the performance of the brute force (BF) or direct search (DS), the cell-linked list (CLL), and the KD-tree (KDT) methods in vectorised form are analysed. The results indicate that the efficiency of the SPH calculations is improved with the vectorised cell-linked list (VCLL) and the vectorised KD-tree (VKDT). However, the VKDT approach is more efficient than the VCLL method for N ≤ 105 in two dimensions (2D) and N ≤ 106 in three dimensions (3D). For larger N, the time duration of the SPH calculations with the VKDT method grows steeply while a linear trend is maintained with the VCLL. The complexity here is measured not only for early events but also close to the point of hardware limit, in which the complexity has a different behaviour, which can be measured and compared using a power fit.
KW - Closest pair search
KW - Data structures
KW - Nearest neighbour search
KW - Smoothed particle hydrodynamics
KW - SPH
UR - https://www.scopus.com/pages/publications/85100021162
U2 - 10.1504/pcfd.2021.10034692
DO - 10.1504/pcfd.2021.10034692
M3 - Article
AN - SCOPUS:85100021162
SN - 1468-4349
VL - 21
SP - 1
EP - 18
JO - Progress in Computational Fluid Dynamics
JF - Progress in Computational Fluid Dynamics
IS - 1
ER -