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 41 articles )

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  1. 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)
  2. Howle, Victoria E.; Kirby, Robert C.; Dillon, Geoffrey: Block preconditioners for coupled physics problems (2013)
  3. Howle, Victoria E.; Kirby, Robert C.: Block preconditioners for finite element discretization of incompressible flow with thermal convection. (2012)
  4. Lin, Paul T.; Shadid, John N.: Towards large-scale multi-socket, multicore parallel simulations: Performance of an MPI-only semiconductor device simulator (2010)
  5. 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)
  6. 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)
  7. Padula, Anthony D.; Scott, Shannon D.; Symes, William W.: A software framework for abstract expression of coordinate-free linear algebra and optimization algorithms (2009)
  8. Sala, Marzio; Spotz, William F.; Heroux, Michael A.: PyTrilinos: High-performance distributed-memory solvers for Python (2008)
  9. Heroux, Michael A.; Salinger, Andrew G.; Frink, Laura J. D.: Parallel segregated Schur complement methods for fluid density functional theories (2007)
  10. Pawlowski, R. P.; Salinger, A. G.; Shadid, J. N.; Mountziaris, T. J.: Bifurcation and stability analysis of laminar isothermal counterflowing jets (2006)
  11. Seoane, Natalia; García-Loureiro, Antonio J.: Study of parallel numerical methods for semiconductor device simulation (2006)
  12. Salinger, A. G.; Burroughs, E. A.; Pawlowski, R. P.; Phipps, E. T.; Romero, L. A.: Bifurcation tracking algorithms and software for large scale applications (2005)
  13. Ober, Curtis C.; Shadid, John N.: Studies on the accuracy of time-integration methods for the radiation-diffusion equations (2004)
  14. Seoane, Natalia; García-Loureiro, A. J.: Analysis of parallel numerical libraries to solve the 3D electron continuity equation (2004)
  15. Bosner, Nela: Numerical stability of Krylov subspace iterative methods for solving linear systems (2003)
  16. Arnold, Dorian C.; Casanova, Henri; Dongarra, Jack: Innovations of the NetSolve Grid Computing System (2002)
  17. Fang, Z.; Ingber, M. S.; Martinez, M. J.: The solution of magnetostatic BEM systems of equations using iterative methods. (2002)
  18. Keyes, David E.: Terascale implicit methods for partial differential equations (2002)
  19. Oliker, Leonid; Li, Xiaoye; Husbands, Parry; Biswas, Rupak: Effects of ordering strategies and programming paradigms on sparse matrix computations (2002)
  20. Saad, Y.; Sosonkina, M.: pARMS: A package for solving general sparse linear systems on parallel computers (2002)

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