Highly interactive computational steering for coupled 3D flow problems utilizing multiple GPUs

Advanced Visual Systems: AVS/Express. http://www.avs.com/software/soft_t/avsxps.html . Visited on 2010-02-19

ANSYS: ANSYS FLUENT Flow Modeling Software. http://www.ansys.com/products/fluid-dynamics/fluent/ . Visited on 2010-02-19

ANSYS: ANSYS CFX (2010). http://www.ansys.com/products/fluid-dynamics/cfx/ . Visited on 2010-02-19

Belleman R., Sloot P.: Dynamic exploration environments. In: Meij, J. (ed.) Dealing with the Data Flood (Mining Data, Text and Multimedia), pp. 771–787. STT, Beweton (2002)

Bindick, S., Ahrenholz, B., Krafczyk, M.: Transiente 3D-simulation thermisch induzierter Strömungen in und an Gebäuden mit kinetischen Methoden. In: Peil, U. (ed.) WtG-Berichte Nr. 11—Windingenieurwesen in Forschung und Praxis, pp. 215–220 (2009)

Bower, A., McGlashan, B.: Twisting the triad: the evolution of the dolphin smalltalk mvp application framework. In: European Smalltalk User Group (ESUG) (2000)

Brodlie, K., Wood, J.: Computational steering in visualization dataflow environments. In: Oxley, L., Kulasiri, D. (eds.) MODSIM 2007 International Congress on Modelling and Simulation, pp. 3077–3083 (2007)

Brodlie, K.W., Duce, D.A., Gallop, J.R., Walton, J.P.R.B., Wood, J.D.: Distributed and collaborative visualization. Comput. Graph. Forum 23(2), 223+ (2004)

Bryson S.: Virtual reality in scientific visualization. Commun. ACM 39(5), 62–71 (1996)

Chatzinikos, F., Wright, H.: Computational steering by direct image manipulation. In: VMV ’01: Proceedings of the Vision Modeling and Visualization Conference 2001, pp. 455–462. Aka GmbH (2001)

Chen S., Doolen G.D.: Lattice boltzmann method for fluid flows. Ann. Rev. Fluid Mech. 30(1), 329–364 (1998)

Computational Engineering International (CEI): EnSight. http://www.ensight.com/ . Visited on 2010-02-25

Conner, B.D., Snibbe, S.S., Herndon, K.P., Robbins, D.C., Zeleznik, R.C., van Dam, A.: Three-dimensional widgets. In: SI3D ’92: Proceedings of the 1992 Symposium on Interactive 3D Graphics, pp. 183–188. ACM, New York, NY, USA (1992)

Crane, K., Llamas, I., Tariq, S.: Real-time simulation and rendering of 3d fluids. In: Nguyen, H. (ed.) GPU Gems 3, Chap. 30. Addison Wesley Professional (2007)

van Dam A., Forsberg A.S., Laidlaw D.H., LaViola J.J., Simpson R.M.: Immersive vr for scientific visualization: a progress report. IEEE Comput. Graph. Appl. 20, 26–52 (2000)

d’Humières D., Bouzidi M., Lallemand P.: Thirteen-velocity three-dimensional lattice boltzmann model. Phys. Rev. E 63(6), 066,702 (2001)

d’Humières D., Ginzburg I., Krafczyk M., Lallemand P., Luo L.S.: Multiple-relaxation-time lattice Boltzmann models in three dimensions. Royal Soc. London Philos. Trans. Ser. A 360, 437–451 (2002)

d’Humières D., Lallemand P., Frisch U.: Lattice gas model for 3D hydrodynamics. Europhys. Lett. 2, 291–297 (1986)

Eickermann, T., Frings, W.: Visit—a visualization interface toolkit version 1.0. Internal report ib-2000, Forschungszentrum Jülich (2000)

Esnard, A., Richart, N., Coulaud, O.: A steering environment for online parallel visualization of legacy parallel simulations. In: DS-RT ’06: Proceedings of the 10th IEEE International Symposium on Distributed Simulation and Real-Time Applications, pp. 7–14. IEEE Computer Society, Washington, DC, USA (2006)

Exa: PowerFLOW. http://www.exa.com/pages/pflow/pflow_main.html . Visited on 2010-02-19

Fan, Z., Qiu, F., Kaufman, A., Yoakum-Stover, S.: Gpu cluster for high performance computing. In: SC ’04: Proceedings of the 2004 ACM/IEEE Conference on Supercomputing, p. 47. IEEE Computer Society (2004)

Fatica, M.: Accelerating linpack with cuda on heterogenous clusters. In: GPGPU-2: Proceedings of 2nd Workshop on General Purpose Processing on Graphics Processing Units, pp. 46–51. ACM, New York, NY, USA (2009)

Foster I., Kesselman C.: The Grid: Blueprint for a New Computing Infrastructure. Morgan Kaufmann Publishers, Los Altos (1998)

Fowler, M.: Development of further patterns of enterprise application architecture. “Website” (2010). Available online at http://www.martinfowler.com/eaaDev/index.html , visited on 2010-02-15

Frisch U., d’Humières D., Hasslacher B., Lallemand P., Pomeau Y., Rivet J.P.: Lattice gas hydrodynamics in two and three dimensions. Complex Syst. 1, 75–136 (1987)

Frisch U., Hasslacher B., Pomeau Y.: Lattice-Gas automata for the Navier-Stokes equation. Phys. Rev. Lett. 56, 1505–1508 (1986)

Gamma E., Helm R., Johnson R.E., Vlissides J.: Design Patterns: Elements of Reusable Object-Oriented Software. Addison-Wesley, Reading, MA (1995)

Geist G.A. II, Arthur J., Kohl J.A., Papadopoulos P.M.: Cumulvs: Providing fault-tolerance, visualization and steering of parallel applications. Int. J. High Perform. Comput. Appl. 11, 224–236 (1996)

Geller, S., Tölke, J., Krafczyk, M.: Lattice Boltzmann methods on quadree-type grids for fluid-structure interaction. In: Bungartz, H., Schäfer, M. (eds.) Fluid-Structure Interaction, Modelling, Simulation and Optimisation, Lecture Notes in Computational Science and Engineering, vol. 53, pp. 270–293. Springer (2006)

Globus, A.: A software model for visualization of large unsteady 3-d cfd results. In: AIAA 95-0115, 33rd Aerospace Sciences Meeting and Exhibit, January 912, pp. 92–031 (1991)

Group, K.: OpenCL—the open standard for parallel programming of heterogeneous systems. http://www.khronos.org/opencl/ . Visited on 2010-02-22

Group, K.: Opengl—the industry standard for high performance graphics. http://www.opengl.org . Visited on 2010-02-20

Haber R., McNabb D.: Visualization idioms: a conceptual model for scientific visualization systems. In: Nielson, G., Shriver, B., Rosenblum, L. (eds) Visualization in Scientific Computing, pp. 74–93. IEEE Computer Society Press, Silver Spring (1990)

Hart D., Kraemer E.: Consistency considerations in the interactive steering of computations. Int. J. Parallel Distrib. Syst. Netw. 2, 171–179 (1999)

He X., Luo L.S.: Theory of the lattice Boltzmann method: from the Boltzmann equation to the lattice Boltzmann equation. Phys. Rev. E 56, 6811–6817 (1997)

Holmes, I.R., Kawalsky, R.S.: The realitygrid pda and smartphone clients: developing effective handheld user interfaces for e-science. In: Cox, S.J. (ed.) Proceedings of UK e-Science All Hands Meeting, pp. 502–509. EPSRC (2006)

Hou, S.: A Lattice Boltzmann method for incompressible, viscous flow. Ph.D. thesis, Kansas State University (1995)

Janssen, C., Krafczyk, M.: Free surface flow simulations on gpus using the lbm (2010). Submitted to: Computers & Mathematics with Applications

Johnson C., Parker S.G., Hansen C., Kindlmann G.L., Livnat Y.: Interactive simulation and visualization. Computer 32(12), 59–65 (1999)

Kohl J.A., Wilde T., Bernholdt D.E.: Cumulvs: interacting with high-performance scientific simulations, for visualization, steering and fault tolerance. Int. J. High Perform. Comput. Appl. 20(2), 255–285 (2006)

Kok A.J.F., van Liere R.: A multimodal virtual reality interface for 3d interaction with vtk. Knowl. Inf. Syst. 13(2), 197–219 (2007)

Krafczyk M., Tölke J., Luo L.S.: Large-Eddy simulations with a multiple-relaxation LBE model. Int. J. Modern Phys. B 17, 33–39 (2003)

Lallemand P., Luo L.S.: Theory of the lattice Boltzmann method: dispersion, dissipation, isotropy, Galilean invariance, and stability. Phys. Rev. E 61(6), 6546–6562 (2000)

Linxweiler, J., Tölke, J., Krafczyk, M.: Applying modern soft- and hardware technologies for computational steering approaches in computational fluid dynamics. In: Cyberworlds, 2007. CW ’07. International Conference on, pp. 41–45 (2007)

Luksch, P., Rathmayer, S., Sunderam, V.: Internet-based collaborative simulation in computational prototyping and scientific research. In: The 2000 International Conference on Parallel and Distributed Processing Techniques and Applications (PDPTA’2000). Las Vegas, Nevada, USA (2000)

Marshall R., Kempf J., Dyer S., Yen C.C.: Visualization methods and simulation steering for a 3d turbulence model of lake erie. SIGGRAPH Comput. Graph. 24(2), 89–97 (1990)

McCormick, B., Fanti, T.D., Brown, M.: Visualization in scientific computing: Report of the nsf advisory panel on graphics, image processing and workstations. ACM Comput. Graph. 21(6) (1987)

Meyer B.: Object-Oriented Software Construction, 2nd edn. Prentice Hall PTR, Englewood Cliffs (2000)

Microsoft: DirectX. http://www.microsoft.com/games/en-US/aboutGFW/pages/directx.aspx . Visited on 2010-02-20

Moore, G.E.: Cramming more components onto integrated circuits. Electronics (1965)

Mulder, J.D., van Wijk, J.: 3d Computational steering with parametrized geometric objects. In: Visualization ’95 Proceedings of the 1995 Visualization Conference, pp. 304–311 (1995)

Mulder J.D., van Wijk J.J., van Liere R.: A survey of computational steering environments. Future Gener. Comput. Syst. 15(1), 119–129 (1999)

Munzner T., Johnson C., Moorhead R., Pfister H., Rheingans P., Yoo T.S.: Nih-nsf visualization research challenges report summary. IEEE Comput. Graph. Appl. 26, 20–24 (2006)

Norman D.A.: The Psychology of Everyday Things. Doubleday, Garden City (1988)

NVIDIA: NVIDIA CUDA Programming Guide 2.3.1 (2009)

Parker, S.G., Johnson, C.R.: Scirun: a scientific programming environment for computational steering. In: Supercomputing ’95: Proceedings of the 1995 ACM/IEEE Conference on Supercomputing (CDROM), p. 52. ACM, New York, NY, USA (1995)

Parker S.G., Weinstein D.W., Johnson C.R.: The scirun computational steering software system. In: Arge, E., Bruaset, A.M., Langtangen, H.P. (eds) Modern Software Tools for Scientific Computing, pp. 5–44. Birkhauser Boston Inc., Cambridge, MA, USA (1997)

Pickles S.M., Haines R., Pinning R.L., Porter A.R.: A practical toolkit for computational steering. Philos. Trans.: Math. Phys. Eng. Sci. 363(1833), 1843–1853 (2005)

Potel, M.: Mvp: Model-view-presenter, the taligent programming model for c++ and java. Tech. rep., Taligent (1996)

Qian Y.H., d’Humières D., Lallemand P.: Lattice BGK models for Navier-Stokes equation. Europhys. Lett. (EPL) 17(6), 479–484 (1992)

Reenskaug, T.: Models—views—controllers. Tech. rep., Technical Note, Xerox Parc (1979)

Schroeder W., Martin K., Lorensen B.: The Visualization Toolkit, 3rd edn. Kitware Inc., USA (2007)

Schroeder, W.J., Martin, K.M., Lorensen, W.E.: The design and implementation of an object-oriented toolkit for 3d graphics and visualization. In: IEEE Visualization, pp. 93–100 (1996)

Smith, M.H., van Dalsem, W.R., Dougherty, R.C., Buning, P.G.: Analysis and visualization of complex unsteady three-dimensional flows. In: 27th AIAA Aerospace Sciences Meeting and Exhibit (1989)

Song, D., Golin, E., Norman, M.: A fine-grain dataflow model for scientific visualization systems. In: Workshop Papers of the Fourth Eurographics Workshop on Visualization in Scientific Computing, Abingdon, United Kingdom, pp. 21–23 (1993)

Sterling J.D., Chen S.: Stability analysis of lattice Boltzmann methods. J. Comput. Phys. 123(1), 196–206 (1996)

Succi S.: The Lattice Boltzmann Equation for Fluid Dynamics and Beyond (Numerical Mathematics and Scientific Computation). Oxford University Press, USA (2001)

Tecplot, I.: Tecplot 360. http://www.tecplot.com/products/360/ . Visited on 2010-02-19

The HDF Group: HDF5 User’s Guide. The HDF Group (2008)

Tölke, J.: Implementation of a lattice boltzmann kernel using the compute unified device architecture developed by nvidia. Comput. Visual. Sci. (2008)

Tölke J., Krafczyk M.: Teraflop computing on a desktop pc with gpus for 3d cfd. Int. J. Comput. Fluid Dyn. 22(7), 443–456 (2008)

Upson C., Faulhaber T. Jr, Kamins D., Laidlaw D.H., Schlegel D., Vroom J., Gurwitz R., van Dam A.: The application visualization system: a computational environment for scientific visualization. IEEE Comput. Graph. Appl. 9(4), 30–42 (1989)

van Liere, R., Mulder, J.D.: Ubiquitous computational steering. In: IEEE Visualization ’97 (1997)

van Liere R., Mulder J.D., van Wijk J.J.: Computational steering. Future Gener. Comput. Syst. 12(5), 441–450 (1997)

Wellein, G., Zeiser, T., Hager, G., Donath, S.: On the single processor performance of simple lattice boltzmann kernels. Comput. Fluids 35(8–9), 910–919 (2006). In: Proceedings of the First International Conference for Mesoscopic Methods in Engineering and Science

Wenisch, P.: Computational steering of cfd simulations on teraflop-supercomputers. Ph.D. thesis, Technische Universität München (2008)

Wenisch, P., Wenisch, O., Rank, E.: Harnessing high-performance computers for computational steering. Recent advances in parallel virtual machine and message passing interface, pp. 536–543 (2005)

Wijk, J.J.V., Liere, R.V., Mulder, J.D., Wijk, J.J.V., Liere, R.V., Mulder, J.D.: Bringing computational steering to the user. In: Presented at the Dagstuhl Seminar on Scientific Visualization, pp. 304–313 (1997)

Wolfram S.: Cellular automaton fluids: basic theory. J. Stat. Phys. 45, 471–526 (1986)

Wood, J., Brodlie, K., Walton, J.: gViz—visualization and steering for the grid. In: Proceedings of e-Science All Hands Meeting (2003)

Wright, H.: Putting visualization first in computational steering. In: Proceedings of UK e-Science All Hands Meeting, pp. 326–331 (2004)

Wright H., Crompton R., Kharche S., Wenisch P.: Steering and visualization: enabling technologies for computational science. Future Gener. Comput. Syst. 26(3), 506–513 (2010)