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Department of Information Technology

KoF07 references for the Division of Scientific Computing

N#

  1. Time Dependent Problems and Difference Methods. Bertil Gustafsson, Heinz-Otto Kreiss, and Joseph Oliger. John Wiley & Sons, New York, 1995.
  2. Stability of systems of viscous conservation laws. Gunilla Kreiss and Heinz-Otto Kreiss. In Communications on Pure and Applied Mathematics, volume 51, pp 1397-1424, 1998.
  3. Boundary and interface conditions for high-order finite-difference methods applied to the Euler and Navier-Stokes equations. Jan Nordström and Mark H. Carpenter. In Journal of Computational Physics, volume 148, pp 621-645, 1999. (DOI).
  4. Preconditioning methods for linear systems arising in constrained optimization problems. Owe Axelsson and Maya Neytcheva. In Numerical Linear Algebra with Applications, volume 10, pp 3-31, 2003. (DOI).
  5. Analysis of semi-Toeplitz preconditioners for first-order PDEs. Lina Hemmingsson and Kurt Otto. In SIAM Journal on Scientific Computing, volume 17, pp 47-64, 1996. (DOI).
  6. Partitioning strategies for structured multiblock grids. Jarmo Rantakokko. In Parallel Computing, volume 26, pp 1661-1680, 2000. (DOI).
  7. A minimal residual interpolation method for linear equations with multiple right-hand sides. Per Lötstedt and Martin Nilsson. In SIAM Journal on Scientific Computing, volume 25, pp 2126-2144, 2004. (DOI).
  8. Dimensional reduction of the Fokker-Planck equation for stochastic chemical reactions. Per Lötstedt and Lars Ferm. In Multiscale Modeling & simulation, volume 5, pp 593-614, 2006. (DOI).
  9. Topology optimization of an acoustic horn. Eddie Wadbro and Martin Berggren. In Computer Methods in Applied Mechanics and Engineering, volume 196, pp 420-436, 2006. (DOI).
  10. Time Compact High Order Difference Methods for Wave Propagation. Bertil Gustafsson and Eva Mossberg. In SIAM Journal on Scientific Computing, volume 26, pp 259-271, 2004. (DOI).
  11. A stable and conservative interface treatment of arbitrary spatial accuracy. Mark H. Carpenter, Jan Nordström, and David Gottlieb. In Journal of Computational Physics, volume 148, pp 341-365, 1999. (DOI).
  12. High order accurate solution of the incompressible Navier-Stokes equations. Arnim Brüger, Bertil Gustafsson, Per Lötstedt, and Jonas Nilsson. In Journal of Computational Physics, volume 203, pp 49-71, 2005. (DOI).
  13. Entropy Splitting for High Order Numerical Simulation of Vortex Sound at Low Mach Numbers. Bernhard Müller and Helen C. Yee. In Journal of Scientific Computing, volume 17, pp 181-190, 2002. (DOI).
  14. Anisotropic grid adaptation for Navier-Stokes' equations. Lars Ferm and Per Lötstedt. In Journal of Computational Physics, volume 190, pp 22-41, 2003. (DOI).
  15. A stable hybrid method for hyperbolic problems. Jan Nordström and Jing Gong. In Journal of Computational Physics, volume 212, pp 436-453, 2006. (DOI).
  16. Iterative solution methods and preconditioners for block-tridiagonal systems of equations. Sverker Holmgren and Kurt Otto. In SIAM Journal on Matrix Analysis and Applications, volume 13, pp 863-886, 1992. (DOI).
  17. A framework for polynomial preconditioners based on fast transforms I: Theory. Sverker Holmgren and Kurt Otto. In BIT Numerical Mathematics, volume 38, pp 544-559, 1998. (DOI).
  18. Analysis of preconditioners for hyperbolic partial differential equations. Kurt Otto. In SIAM Journal on Numerical Analysis, volume 33, pp 2131-2165, 1996. (DOI).
  19. A semi-circulant preconditioner for the convection-diffusion equation. Lina Hemmingsson. In Numerische Mathematik, volume 81, pp 211-248, 1998. (DOI).
  20. Convergence acceleration for the linearized Navier-Stokes equations using semicirculant approximations. Sverker Holmgren, Henrik Brandén, and Erik Sterner. In SIAM Journal on Scientific Computing, volume 21, pp 1524-1550, 2000. (DOI).
  21. Iterative solution of the Helmholtz equation by a second-order method. Kurt Otto and Elisabeth Larsson. In SIAM Journal on Matrix Analysis and Applications, volume 21, pp 209-229, 1999. (DOI).
  22. Parallel solution of the Helmholtz equation in a multilayer domain. Elisabeth Larsson and Sverker Holmgren. In BIT Numerical Mathematics, volume 43, pp 387-411, 2003. (DOI).
  23. A domain decomposition method for the Helmholtz equation in a multilayer domain. Elisabeth Larsson. In SIAM Journal on Scientific Computing, volume 20, pp 1713-1731, 1999. (DOI).
  24. Robust optimal multilevel preconditioners for non-conforming finite element systems. Radim Blaheta, Svetozar Margenov, and Maya Neytcheva. In Numerical Linear Algebra with Applications, volume 12, pp 495-514, 2005. (DOI).
  25. Object-oriented modeling of parallel PDE solvers. Michael Thuné, Krister Åhlander, Malin Ljungberg, Markus Nordén, Kurt Otto, and Jarmo Rantakokko. In The Architecture of Scientific Software, pp 159-174, Kluwer Academic Publishers, Norwell, MA, 2001.
  26. A framework for partitioning structured grids with inhomogeneous workload. Jarmo Rantakokko. In Parallel Algorithms and Applications, volume 13, pp 135-151, 1998. (DOI).
  27. Improving Geographical Locality of Data for Shared Memory Implementations of PDE Solvers. Henrik Löf, Markus Nordén, and Sverker Holmgren. In Computational Science – ICCS 2004, volume 3037 of Lecture Notes in Computer Science, pp 9-16, Springer-Verlag, Berlin, 2004. (DOI).
  28. Multigrid and Gauss-Seidel smoothers revisited: Parallelization on chip multiprocessors. Dan Wallin, Henrik Löf, Erik Hagersten, and Sverker Holmgren. In Proc. 20th ACM International Conference on Supercomputing, pp 145-155, ACM Press, New York, 2006. (DOI).
  29. A comparison of time-domain hybrid solvers for complex scattering problems. Fredrik Edelvik and Gunnar Ledfelt. In International journal of numerical modelling, volume 15, pp 475-487, 2002. (DOI).
  30. Frequency Dispersive Materials for 3-D Hybrid Solvers in Time Domain. Fredrik Edelvik and Bo Strand. In IEEE Transactions on Antennas and Propagation, volume 51, pp 1199-1205, 2003. (DOI).
  31. Rapid solution of parameter-dependent linear systems for electromagnetic problems in the frequency domain. Martin Nilsson. In IEEE Transactions on Antennas and Propagation, volume 53, pp 777-784, 2005. (DOI).
  32. Solving inverse electromagnetic problems using FDTD and gradient-based minimization. Erik Abenius and Bo Strand. In International Journal for Numerical Methods in Engineering, volume 68, pp 650-673, 2006. (DOI).
  33. An Unconditionally Stable Subcell Model for Arbitrarily Oriented Thin Wires in the FETD Method. Fredrik Edelvik, Gunnar Ledfelt, Per Lötstedt, and Douglas J. Riley. In IEEE Transactions on Antennas and Propagation, volume 51, pp 1797-1805, 2003. (DOI).
  34. On the modeling of small geometric features in computational electromagnetics. Fredrik Edelvik. In Multiscale Methods in Science and Engineering, volume 44 of Lecture Notes in Computational Science and Engineering, pp 133-148, Springer-Verlag, Berlin, 2005. (DOI).
  35. Implicit-explicit Runge-Kutta method for combustion simulation. Erik Lindblad, Damir M. Valiev, Bernhard Müller, Jarmo Rantakokko, Per Lötstedt, and Michael A. Liberman. In Proc. ECCOMAS CFD Conference 2006, p 20, Tech. Univ. Delft, The Netherlands, 2006.
  36. A conservative level set method for two phase flow. Elin Olsson and Gunilla Kreiss. In Journal of Computational Physics, volume 210, pp 225-246, 2005.
  37. A numerical study of some radial basis function based solution methods for elliptic PDEs. Elisabeth Larsson and Bengt Fornberg. In Computers and Mathematics with Applications, volume 46, pp 891-902, 2003. (DOI).
  38. Theoretical and computational aspects of multivariate interpolation with increasingly flat radial basis functions. Elisabeth Larsson and Bengt Fornberg. In Computers and Mathematics with Applications, volume 49, pp 103-130, 2005. (DOI).
  39. Improved radial basis function methods for multi-dimensional option pricing. Ulrika Pettersson, Elisabeth Larsson, Gunnar Marcusson, and Jonas Persson. In Journal of Computational and Applied Mathematics, volume 222, pp 82-93, 2008. (DOI).
  40. Space-time adaptive finite difference method for European multi-asset options. Per Lötstedt, Jonas Persson, Lina von Sydow, and Johan Tysk. In Computers and Mathematics with Applications, volume 53, pp 1159-1180, 2007. (DOI).
  41. Shape optimization for delay of laminar-turbulent transition. Olivier Amoignon, Jan Pralits, Ardeshir Hanifi, Martin Berggren, and Dan Henningson. In AIAA Journal, volume 44, pp 1009-1024, 2006. (DOI).
  42. Shape optimization of an acoustic horn. Erik Bängtsson, Daniel Noreland, and Martin Berggren. In Computer Methods in Applied Mechanics and Engineering, volume 192, pp 1533-1571, 2003. (DOI).
Updated  2015-07-16 13:05:10 by Kurt Otto.