AztecOO

AztecOO provides an object-oriented interface the the well-known Aztec solver library. Furthermore, it allows flexible construction of matrix and vector arguments via Epetra matrix and vector classes. Finally, AztecOO provide additional functionality not found in Aztec and any future enhancements to the Aztec package will be available only through the AztecOO interfaces.


References in zbMATH (referenced in 76 articles )

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  1. Burstedde, Carsten; Fonseca, Jose A.; Kollet, Stefan: Enhancing speed and scalability of the ParFlow simulation code (2018)
  2. Phillips, Edward G.; Shadid, John N.; Cyr, Eric C.: Scalable preconditioners for structure preserving discretizations of Maxwell equations in first order form (2018)
  3. Marioni, L.; Alves Z., J. R.; Hachem, E.; Bay, F.: A new approach to solve complex valued systems arising from the solution of Maxwell equations in the frequency domain through real-equivalent formulations. (2017)
  4. Phillips, Edward G.; Shadid, John N.; Cyr, Eric C.; Elman, Howard C.; Pawlowski, Roger P.: Block preconditioners for stable mixed nodal and edge finite element representations of incompressible resistive MHD (2016)
  5. Shadid, J. N.; Pawlowski, R. P.; Cyr, E. C.; Tuminaro, R. S.; Chacón, L.; Weber, P. D.: Scalable implicit incompressible resistive MHD with stabilized FE and fully-coupled Newton-Krylov-AMG (2016)
  6. Verdugo, Francesc; Wall, Wolfgang A.: Unified computational framework for the efficient solution of (n)-field coupled problems with monolithic schemes (2016)
  7. Saxena, Prashant; Pelteret, Jean-Paul; Steinmann, Paul: Modelling of iron-filled magneto-active polymers with a dispersed chain-like microstructure (2015)
  8. Benzi, Michele; Wang, Zhen: A parallel implementation of the modified augmented Lagrangian preconditioner for the incompressible Navier-Stokes equations (2013)
  9. Cyr, Eric C.; Shadid, John N.; Tuminaro, Raymond S.; Pawlowski, Roger P.; Chacón, Luis: A new approximate block factorization preconditioner for two-dimensional incompressible (reduced) resistive MHD (2013)
  10. Danowski, Caroline; Gravemeier, Volker; Yoshihara, Lena; Wall, Wolfgang A.: A monolithic computational approach to thermo-structure interaction (2013)
  11. Howle, Victoria E.; Kirby, Robert C.; Dillon, Geoffrey: Block preconditioners for coupled physics problems (2013)
  12. Gordon, Dan; Gordon, Rachel: Parallel solution of high frequency Helmholtz equations using high order finite difference schemes (2012)
  13. Howle, Victoria E.; Kirby, Robert C.: Block preconditioners for finite element discretization of incompressible flow with thermal convection. (2012)
  14. Gordon, Dan; Gordon, Rachel: Row scaling as a preconditioner for some nonsymmetric linear systems with discontinuous coefficients (2010)
  15. Gordon, Dan; Gordon, Rachel: CARP-CG: A robust and efficient parallel solver for linear systems, applied to strongly convection dominated PDEs (2010)
  16. Lin, Paul T.; Shadid, John N.: Towards large-scale multi-socket, multicore parallel simulations: Performance of an MPI-only semiconductor device simulator (2010)
  17. Lin, Paul T.; Shadid, John N.; Tuminaro, Raymond S.; Sala, Marzio; Hennigan, Gary L.; Pawlowski, Roger P.: A parallel fully coupled algebraic multilevel preconditioner applied to multiphysics PDE applications: drift-diffusion, flow/transport/reaction, resistive MHD (2010)
  18. Lin, Paul T.; Shadid, John N.; Tuminaro, Ray S.; Sala, Marzio: Performance of a Petrov -- Galerkin algebraic multilevel preconditioner for finite element modeling of the semiconductor device drift-diffusion equations (2010)
  19. Luisier, Mathieu; Klimeck, Gerhard: Numerical strategies towards peta-scale simulations of nanoelectronics devices (2010)
  20. Lin, Paul T.; Shadid, John N.; Sala, Marzio; Tuminaro, Raymond S.; Hennigan, Gary L.; Hoekstra, Robert J.: Performance of a parallel algebraic multilevel preconditioner for stabilized finite element semiconductor device modeling (2009)

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