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If you publish a paper that mentions ML, please send us a link. Here are a few papers that reference the ML package.

  • Andreas Adelmann, Peter Arbenz, Yves Ineichen. A Fast Parallel Poisson Solver on Irregular Domains Applied to Beam Dynamic Simulations. arXiv.org, arXiv:0907.4863v1 [physics.comp-ph], 2009. (link)
  • Andrea Aprovitola, Pasqua D’Ambra, Daniela di Serafino, and Salvatore Filippone. On the Use of Aggregation-Based Parallel Multilevel Preconditioners in the LES of Wall-Bounded Turbulent Flows in Large-Scale Scientific Computing, I. Lirkov, S. Margenov, and J. Wasniewski, editors, Vol. 5910 (Lecture Notes in Computer Science), p. 67-75, 2010. (link)
  • Peter Arbenz , Martin Bečka, Roman Geus, Ulrich Hetmaniuk, Tiziano Mengotti. On a parallel multilevel preconditioned Maxwell eigensolver. Parallel Computing, Vol. 32 (2), p. 157-165, 2006. (link)
  • Peter Arbenz and Cyril Flaig. On Smoothing surfaces in voxel based finite element analysis of trabecular bone. In Large Scale Scientific Computing LSSC’07, I. Lirkov, S. Margenov, and J. Wasniewski (eds.). Lecture Notes In Computer Science, Vol. 4818, p. 69-77, 2008. (link)
  • Peter Arbenz and Roman Geus. Multilevel preconditioned iterative eigensolvers for Maxwell eigenvalue problems. Applied Numerical Mathematics, Vol. 54 (2), p. 107-121, , 2004. (link)
  • C. Bekas, A. Curioni, P. Arbenz, C. Flaig, G.H. Van Lenthe, R. Müller, and A. Wirth. Extreme scalability challenges in micro-finite element simulations of human bone. Concurrency and Computation: Practice and Experience, Vol. 22 (16), p. 2282-2296, 2010. (link)
  • Michele Benzi, Gene Golub, Jörg Liesen. Numerical solution of saddle point problems. Acta Numerica (14), p. 1-137, 2005. (link)
  • Michele Benzi, Maxim Olshanskii, and Zhen Wang. Modified augmented Lagrangian preconditioners for the incompressible Navier–Stokes equations. International Journal for Numerical Methods in Fluids, Vol. 66 (4), p. 486-508, 2011. (link)
  • Tim Boonen, Geoffrey Deliége, Stefan Vandewalle. On algebraic multigrid methods derived from partition of unity nodal prolongators Numerical Linear Algebra with Applications, Vol. 13 (2-3), p. 105-131 , 2006. (link)
  • Oliver Bröker, Oscar Chinellato and Roman Geus. Using Python for large scale linear algebra applications. Future Generation Computer Systems, Vol. 21 (6), p. 969-979, 2005. (link)
  • L. A. Drummond and O. A. Marques. An overview of the Advanced CompuTational Software (ACTS) collection. ACM Transactions on Mathematical Software (TOMS), Vol. 31 (6), p. 282-301 , 2005. (link)
  • C.J. Garasi, D.E. Bliss, T.A. Mehlhorn, B.V. Oliver, A.C. Robinson, and G.S. Sarkisov. Multi-dimensional high energy density physics modeling and simulation of wire array Z-pinch physics. Physics of Plasmas, Vol. 11 (5), p. 2729-2737, 2004. (link)
  • Eldad Haber and Stefan Heldmann. An octree multigrid method for quasi-static Maxwell’s equations with highly discontinuous coefficients . Journal of Computational Physics, Vol. 223 (2), p. 783-796, 2007. (link)
  • Ulrich Hetmaniuk. A Rayleigh quotient minimization algorithm based on algebraic multigrid. Numerical Linear Algebra with Applications, Vol. 14 (7), p. 563-580, 2007. (link)
  • Øyvind Hjelle and Morten Dæhlen. Multilevel least squares approximation of scattered data over binary triangulations. Computing and Visualization in Science, Vol. 8 (2), p. 83-91, 2005. (link)
  • S. Ilvonen and I. Laakso. Computational estimation of magnetically induced electric fields in a rotating head. Physics in Medicine and Biology, Vol. 54 (2) p. 341-351, 2009. (link)
  • S. Koch, H. De Gersem, E. Fischer, G. Moritz, and T. Weiland. Simulation of Eddy-Current Losses in a Fast Ramped Superconductive Dipole Magnet. IEEE Transactions on Applied Superconductivity, Vol. 16 (2), p. 334-337, 2006. (link)
  • J. Lang and D. Teleaga. Towards a fully space-time adaptive FEM for magnetoquasistatics. IEEE Transactions on Magnetics, Vol. 44 (6), p. 1238-1241, 2008. (link)
  • Gregory Larson, Deryl Snyder, David Vanden Abeele, and Tanja Clees Application of single-level, pointwise algebraic, and smoothed aggregation multigrid methods to direct numerical simulations of incompressible turbulent flows. Computing and Visualization in Science, 2007. (link)
  • Kent-Andre Mardal, Ola Skavhaug, Glenn T. Lines, Gunnar A. Staff, and Åsmund Ødegård. Using Python to Solve Partial Differential Equations. Computing in Science and Engineering, Vol. 9 (3), p. 48-51, 2007. (link)
  • Peter Messmer and David L. Bruhwiler. A parallel electrostatic solver for the VORPAL code. Computer Physics Communications, Vol. 164 (1-3), Proceedings of the 18th International Conferene on the Numerical Simulation of Plasmas, p. 118-121, December 2004. (link)
  • A.C. Robinson and C.J. Garasi. Three-dimensional z-pinch wire array modeling with ALEGRA-HEDP. Computer Physics Communications, Vol. 164 (1-3), p. 408-413, 2004. (link)
  • Lin Shi, Yizhou Yu, Nathan Bell, and Wei-Wen Feng. A Fast Multigrid Algorithm for Mesh Deformation. ACM Transactions on Graphics, Vol. 25 (3), p. 1108-1117, 2006. (link)