Edited by: B.H.V. Topping and P. Iványi
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| Preliminaries |
| I | PLANNING FOR PETAFLOP COMPUTING
SESSION ORGANISED BY D.R. EMERSON |
| 1 |
Engineering at the Edge: Challenges for Petaflop Computing and Computational Fluid Dynamics
D.R. Emerson |
| 2 |
Developing a Petaflop Computational Fluid Dynamics Capability for Energy and Environment
C. Moulinec, A.G. Sunderland, D. Emerson, X. Gu, Y. Fournier and J.C. Uribe |
| 3 |
Challenges in Molecular Dynamics on a Grand Scale
I.T. Todorov, W. Smith, I.J. Bush and L. Ellison |
| II | DOMAIN DECOMPOSITION
SESSION ORGANISED BY J. KRUIS |
| 4 |
Balancing Domain Decomposition with Nonlinear Relocalization: Parallel Implementation for Laminates
F. Bordeu, P.A. Boucard and P. Gosselet |
| 5 |
New Matrix General Formulas of Dual-Primal Domain Decomposition Methods without recourse to Lagrange Multipliers
I. Herrera and R.A. Yates |
| 6 |
One- and Two-Level Domain Decomposition Methods for Nonlinear Problems
L. Badea |
| 7 |
Resolution of Non-Linear Parabolic Periodic Problems using Domain Decomposition
N. Alaa, N. Idrissi and J.R. Roche |
| 8 |
Parallel Implementation of a Domain Decomposition Algorithm for Molecular Dynamics
G. Berhe, B. Peters, S. Varrette and P. Bouvry |
| III | PARALLEL GENETIC AND EVOLUTIONARY ALGORITHMS: METHODS AND APPLICATIONS
SESSION ORGANISED BY B.H.V. TOPPING AND P. IVÁNYI |
| 9 |
A Parallel Genetic Algorithm for Optimal Synthesis of a Morphing Aerofoil
A. Maheri and A.T. Isikveren |
| 10 |
Load-Balancing of a Master-Slave Evolutionary Algorithm for Parameter Identification
M. Lepš |
| 11 |
Parallelism on Multicore Processors using Parallel.FX
A.L. Márquez, C. Gil, R. Baños and J. Gómez |
| IV | PARALLEL AND DISTRIBUTED: PROGRAMMING AND SYSTEMS |
| 12 |
OOFEM: A Parallel Finite Element Toolkit
B. Patzák |
| 13 |
Integration of OpenNURBS, MOAB and Geompack++ with a Python Interpreter
R. Putanowicz |
| 14 |
Speed Enhancement of Free-form Curve Matching with Parallel Fortran 2008
A.A. Stamos, D.I. Vassilaki and Ch.C. Ioannidis |
| 15 |
PyMW: a Python Module for Parallel Master Worker Computing
E.M. Heien, A. Kornafeld, Y. Takata and K. Hagihara |
| 16 |
Unified Kernel and User Space Distributed Tracing for Message Passing Analysis
B. Poirier, R. Roy and M. Dagenais |
| V | COMPUTATIONAL ENGINEERING ON SPECIAL PURPOSE HARDWARE |
| 17 |
Speeding up a Lattice Boltzmann Kernel on nVIDIA GPUs
J. Habich, T. Zeiser, G. Hager and G. Wellein |
| VI | GRAPHICS AND VISUALISATION |
| 18 |
Reconstruction of Computerized Tomography Images on a Cell Broadband Engine using Ray based Interpolation
M.E. Jørgensen and B. Vinter |
| 19 |
A Quantum Random Sample Consensus Algorithm for Point Cloud Simplification
S. Caraiman and V. Manta |
| 20 |
Computation and Visualization of Poly-Dispersed Particle Systems on gLite Grid
A. Kaceniauskas, R. Kacianauskas, A. Maknickas and D. Markauskas |
| VII | GRID COMPUTING |
| 21 |
A Predictive File Replication Strategy for Grid Computing
C.H. Liao, F.Z. Wang, S.N. Wu, M.M. Rashid and N. Helian |
| 22 |
A Script Generator API for the Full-Scale Three-Dimensional Vibration Simulation of an Entire Nuclear Power Plant within AEGIS
G. Kim, Y. Suzuki, N. Teshima, A. Nishida, T. Yamada, F. Araya, H. Takemiya, N. Nakajima and M. Kondo |
| 23 |
Greedy Performance Metrics for Grid Schedulers
J.L. Albín, T.F. Pena, J.C. Cabaleiro and F.F. Rivera |
| 24 |
Grid Workflow Acceleration using a Dataflow Paradigm
M. Rashid, F. Wang and S.N. Wu |
| 25 |
Automation of Security Analysis for Service Grid Systems
S. Acs, M. Kozlovszky and Z. Balaton |
| VIII | GRID COMPUTING: ENGINEERING APPLICATIONS |
| 26 |
Distributed High-Performance Computing Framework for Modeling and Inversion of Geophysical Well Logs
V. Polyakov, R. Kocian, D. Omeragic and T. Habashy |
| 27 |
Grid Computing applied to the Boundary Element Method
M.T.F. Cunha, J.C.F. Telles, A. YarKhan and J. Dongarra |
| 28 |
Use of High Performance Computing for Probabilistic Seismic Response Sensitivity Analyses of a Building Structure
M. Faggella, A.R. Barbosa, J.P. Conte, E. Spacone and J.I. Restrepo |
| IX | SERVICE ORIENTED COMPUTING |
| 29 |
A Continuation Based Middleware to Experiment with Economy Based Service Scheduling
C. Di Napoli and M. Giordano |
| X | CLUSTER COMPUTING |
| 30 |
Tuning a Cluster System for High Performance Computing in Engineering
J. Magiera, G. Graniczkowski and P. Kapusta |
| XI | DYNAMIC LOAD BALANCING |
| 31 |
A Framework for Parallel Adaptive Finite Element Computations with Dynamic Load Balancing
B. Patzák and D. Rypl |
| XII | PARTICLE PROBLEMS |
| 32 |
Parallel Moving Particle Calculations using the Immersed Boundary Method
Z. Wang, J. Fan and K. Cen |
| XIII | STRUCTURAL MECHANICS |
| 33 |
MPI-CUDA Parallelisation of the Finite Strip Method for Geometrically Nonlinear Analysis
P. Rakic, D.D. Milašinovic, Z. Zivanov and M. Hajdukovic |
| 34 |
Parallel Implementation of Three-dimensional Lattice Fracture Analysis on a Distributed Memory Architecture
Z. Qian, E. Schlangen, G. Ye and K. van Breugel |
| 35 |
Parallel Computing Techniques Applied to the Simultaneous Design of Structure and Material
P.G. Coelho, J.B. Cardoso, P.R. Fernandes and H.C. Rodrigues |
| 36 |
Generic Design of a Distributable Class for Integrated Earthquake Simulation
Gh. Sobhaninejad and M. Hori |
| 37 |
An Iterative Substructuring Solver for the Stokes Equations
A. Suzuki |
| 38 |
Simulation Based Reliability Assessment Method using Parallel Computing
P. Konecný, J. Brozovský and V. Krivý |
| 39 |
OpenMP Parallel Computing using the Material Point Method
Z. Wieckowski |
| 40 |
A Comparative Study on Two Different Direct Parallel Solution Strategies for Large-Scale Problems
T. Bahcecioglu, S. Ozmen and O. Kurc |
| 41 |
Solution of Multibody System Dynamics Problems on Client-Server Architectures with Pipe Data Interchange
V.V. Getmanski, A.S. Gorobtsov and A.E. Andreev |
| XIV | MULTIGRID METHODS |
| 42 |
Parallel Computing as a Vehicle for Engineering Design of Functional Surfaces
Y.C. Lee, D.R. Emerson, P.H. Gaskell, X.J. Gu and H.M. Thompson |
| 43 |
Performance Prediction for Multigrid Codes Implemented with Different Parallel Strategies
G. Romanazzi and P.K. Jimack |
| XV | MULTISCALE PROBLEMS |
| 44 |
A Parallel and Multiscale Domain Decomposition Approach for Transient Dynamics
D. Odièvre, P.-A. Boucard and F. Gatuingt |
| XVI | COMPUTATIONAL FLUID DYNAMICS |
| 45 |
Parallel Computational Fluid Dynamics: Not without its Challenges
T.N. Croft, D. Carswell, M. Cross, D. McBride, S. Rolland, A.K. Slone and A.J. Williams |
| 46 |
Implementation of a Parallel Fluid-Structure Interaction Problem
P. Iványi and B.H.V. Topping |
| End matter / Index |
