4 title = {The lattice Boltzmann equation and beyond},
5 publisher = {Oxford University Press, Oxford},
10 author = {Desplat, J.-C. and Pagonabarraga, I. and Bladon P.},
11 title = {LUDWIG: A parallel lattice-Boltzmann code for complex fluids},
12 journal = {Comput. Phys. Comms.},
19 author = { Aidun, C.K. and Clausen, J.R.},
20 title = {Lattice Boltzmann method for complex flows},
21 journal = {Ann. Rev. Fluid Mech.},
28 @Article{stratford2008,
29 author = {Stratford, K. and Pagonabarraga, I.},
30 title = {Parallel domain decomposition for lattice Boltzmann with moving particles},
31 journal = {Comput. Math. with Applications},
38 author = {Wei, X. and Li, W. and M\"uller, K. and Kaufman, A.E.},
39 title = {The lattice Boltzmann method for simulating gaseous phenomena},
40 journal = {IEEE Transactions on Visualization and Computer Graphics},
47 author = {Zhu, H. and Liu, X. and Liu, Y. and Wu, E.},
48 title = {Simulation of miscible binary mixtures based on lattice Boltzmann method},
49 journal = {Comp. Anim. Virtual Worlds},
57 title = {Lattice Boltzmann based PDE solver on the GPU},
58 journal = {Visual Comput.},
65 author = {T\"olke, J.},
66 title = {Implementation of a lattice Boltzmann kernel using the compute unified device architecture developed by nVIDIA},
67 journal = {Comput. Visual Sci.},
74 @InProceedings{fan2004,
75 author = { Fan, Z. and Qiu, F. and Kaufman, A. and Yoakum-Stover, S.},
76 title = {GPU cluster for high performance computing},
77 booktitle = {Proceedings of ACM/IEEE Supercomputing Conference},
80 editor = {IEEE Computer Society Press},
81 address = {Pittsburgh, PA},
86 author = { Myre, J. and Walsh, S.D.C. and Lilja, D. and Saar, M.O.},
87 title = {Performance analysis of single-phase, multiphase, and multicomponent lattice Boltzmann fluid flow simulations on GPU clusters},
88 journal = {Concurrency Computat.: Pract. Exper.},
96 author = { Obrecht, C. and Kuznik, F. and Tourancheau, B. and Roux, J.-J.},
97 title = {Multi-GPU implementation of the lattice Boltzmann method},
98 journal = {Comput. Math. with Applications},
104 @Article{bernaschi2010,
105 author = {Bernaschi, M. and Fatica, M. and Melchionna, S. and Succi, S; and Kaxiras, E.},
106 title = {A flexible high-performance lattice Boltzmann GPU code for the
107 simulations of fluid flow in complex geometries},
108 journal = {Concurrency Computat.: Pract. Exper.},
115 author = { Xian, W. and Takayuki, A.},
116 title = {Multi-GPU performance of incompressible flow computation by
117 lattice Boltzmann method on GPU cluster},
118 journal = {Parallel Comput.},
125 @Article{feichtinger2011,
126 author = {Feichtinger, C. and Habich, J. and K\"ostler, H. and Hager, G. and R\"ude, U. and
128 title = {A flexible patch-based lattice Boltzmann parallelization approach for heterogeneous GPU-CPU clusters},
129 journal = {Parallel Computing},
135 @Article{wellein2006,
136 author = {Wellein, G. and Zeiser, T. and Hager, G. and Donath, S.},
137 title = {On the single processor performance of simple lattice Boltzmann kernels},
138 journal = {Computers and Fluids},
145 author = { Pohl, T. and Kowarschik, M. and Wilke, J. and Igelberger, K. and R\"ude, U.},
146 title = {Optimization and profiling of the cache performance of parallel lattice Boltzmann code},
147 journal = {Parallel Process Lett.},
153 @Article{mattila2007,
154 author = {Mattila, K. and Hyv\"aluoma, J. and Rossi, T. and Aspn\"as M. and Westerholm, J.},
155 title = {An efficient swap algorithm for the lattice Boltzmann method},
156 journal = {Comput. Phys. Comms.},
164 @Article{wittmann2012,
165 author = {Wittmann, M. and Zeiser, T. and Hager, G. and Wellein, G.},
166 title = {Comparison of different propagation steps for lattice Boltzmann methods},
167 journal = {Comput. Math with Appl.},
169 note = {doi:10.1016/j.camwa.2012.05.002},
172 @Article{walshsaar2012,
173 author = {Walsh, S.D.C. and Saar, M.O.},
174 title = {Developing extensible lattice Boltzmann simulators for general-purpose graphics-processing units},
175 journal = {Comm. Comput. Phys.},
182 @InProceedings{williams2011,
183 author = {Williams, S. and Oliker, L. and Carter, J. and Shalf, J.},
184 title = {Extracting ultra-scale lattice Boltzmann performance via
185 hierarchical and distributed auto-tuning},
186 booktitle = {International Conference for High Performance Computing, Networking, Storage and Analysis (SC) },
189 address = {Berkeley, CA},
190 publisher = {IEEE Computer Society Press},
195 @Article{ch14:stratford-jsp2005,
196 author = {Stratford, K. and Adhikari, R. and Pagonabarraga, I. and Desplat, J.-C.},
197 title = {Lattice Boltzmann for Binary Fluids with Suspended Colloids},
198 journal = {J. Stat. Phys.},
206 author = {Ladd, A.J.C.},
207 title = {Numerical simulations of particle suspensions via a discretized Boltzmann equation. Part 1. Theoretical foundation and Part II. Numerical results},
208 journal = {J. Fluid Mech.},
217 author = {Nguyen, N.-Q. and Ladd, A.J.C.},
218 title = {Lubrication corrections for lattice Boltzmann simulations of particle suspensions},
219 journal = {Phys. Rev. E},
225 @Article{ch14:immersed1,
226 author = {Peskin, C.S.},
227 title = {Flow patterns around heart valves; a numerical method},
228 journal = {J. Comp. Phys.},
235 @Article{ch14:immersed2,
236 author = {Peskin, C.S.},
237 title = {The immersed boundary method},
238 journal = {Acta Nummerica},
245 @Article{ch14:immersed-lb,
246 author = {Feng, Z.-G. and Michaelides, E.E},
247 title = {The immersed boundary-lattice Boltzmann method for solving
248 fluid-particles interaction problem},
249 journal = {J. Comp. Phys.},
256 author = {Nakayama, Y. and Yammamoto, R.},
257 title = {Simulation method to resolve hydrodynamic interactions in colloidal
259 journal = {Phys. Rev. E},
