Parallel simulation of fluid slip in a microchannel

Summary form only given. We investigate the parallel simulation of fluid slip along microchannel walls using the multicomponent lattice Boltzmann method (LBM) with domain decomposition. Because of the high complexity for microscale simulation, even a parallel computation of fluid slip can take days or weeks. Any slowness in the participating nodes in a cluster can drag the entire computation substantially, due to frequent node synchronization involved in each computational phase of the algorithm. We augment the parallel LBM algorithm with filtered dynamic remapping for lattice points. This filtered scheme uses lazy remapping and over-redistribution strategies to balance the computational speed of participating nodes and to minimize the performance impact of slow nodes on synchronized phases. Our experimental results indicate that the proposed technique can greatly speed up fluid slip simulation on a nondedicated cluster over a long period of execution time.