Howard Elman
Finite Elements and Fast Iterative Solvers
Howard Elman
Finite Elements and Fast Iterative Solvers
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A practical graduate text on Scientific Computing with a focus on numerical solution of partial differential equations and numerical linear algebra. This book, and its associated freely downloadable MATLAB software, is relevant to engineers, applied mathematicians, numerical analysts, and people working in interdisciplinary Scientific Computing.
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A practical graduate text on Scientific Computing with a focus on numerical solution of partial differential equations and numerical linear algebra. This book, and its associated freely downloadable MATLAB software, is relevant to engineers, applied mathematicians, numerical analysts, and people working in interdisciplinary Scientific Computing.
Produktdetails
- Produktdetails
- Verlag: Oxford University Press, USA
- 2nd edition
- Seitenzahl: 494
- Erscheinungstermin: 5. August 2014
- Englisch
- Abmessung: 239mm x 159mm x 33mm
- Gewicht: 870g
- ISBN-13: 9780199678792
- ISBN-10: 0199678790
- Artikelnr.: 47870776
- Verlag: Oxford University Press, USA
- 2nd edition
- Seitenzahl: 494
- Erscheinungstermin: 5. August 2014
- Englisch
- Abmessung: 239mm x 159mm x 33mm
- Gewicht: 870g
- ISBN-13: 9780199678792
- ISBN-10: 0199678790
- Artikelnr.: 47870776
Howard Elman is a Professor in the Computer Science Department and the Institute for Advanced Computer Studies at the University of Maryland, College Park. He received his doctorate in Computer Science from Yale University in 1982. He has held visiting positions at Stanford University, the University of Manchester Institute of Science and Technology and the University of Oxford. He has served on the editorial boards of SIAM Journal on Scientific Computing, where he was editor-in-chief from 1998-2004, Mathematics of Computation, and Numerical Linear Algebra with Applications. His research concerns numerical solution of partial differential equations, computational fluid dynamics, sparse matrix methods, and uncertainty quantification. David Silvester is a Professor in the School of Mathematics at The University of Manchester. His research concerns numerical solution of partial differential equations, computational fluid dynamics, uncertainty quantification, and high performance computing. He received his doctorate in Mathematics from the University of Manchester Institute of Science and Technology in 1984 and has had visiting positions at Stanford University, the University of Maryland at College Park, and the Université du Littoral, France. He has served on the editorial boards of SIAM Journal on Scientific Computing and the International Journal for Numerical Methods in Fluids. Andy Wathen is Reader in Numerical Analysis at the Oxford University Mathematical Institute, UK and a Fellow at New College. His research focuses on Scientific Computing methods and algorithms associated with the numerical solution of partial differential equations, particularly algorithms of numerical linear algebra. Applications range from coolant flows to biological patterning. He received his doctorate from Reading University in 1982 and has held visiting positions at Stanford University, the University of California, Berkeley and at the University of New South Wales. He has served on the editorial boards of the IMA Journal on Numerical Analysis, SIAM Journal on Scientific Computing, SIAM Journal on Matrix Analysis and Applications, Numerical Linear Algebra with Applications and Electronic Transactions on Numerical Analysis.
0: Models of incompressible fluid flow
1: The Poisson equation
2: Solution of discrete Poisson problems
3: The Stokes equations
4: Solution of discrete Stokes problems
5: Optimization with PDE constraints
6: The convection-diffusion equation
7: Solution of discrete convection-diffusion problems
8: The Navier-Stokes equations
9: Solution of discrete Navier-Stokes problems
10: Solution of unsteady Navier-Stokes equations
11: Solution of models of buoyancy-driven flow
1: The Poisson equation
2: Solution of discrete Poisson problems
3: The Stokes equations
4: Solution of discrete Stokes problems
5: Optimization with PDE constraints
6: The convection-diffusion equation
7: Solution of discrete convection-diffusion problems
8: The Navier-Stokes equations
9: Solution of discrete Navier-Stokes problems
10: Solution of unsteady Navier-Stokes equations
11: Solution of models of buoyancy-driven flow
0: Models of incompressible fluid flow
1: The Poisson equation
2: Solution of discrete Poisson problems
3: The Stokes equations
4: Solution of discrete Stokes problems
5: Optimization with PDE constraints
6: The convection-diffusion equation
7: Solution of discrete convection-diffusion problems
8: The Navier-Stokes equations
9: Solution of discrete Navier-Stokes problems
10: Solution of unsteady Navier-Stokes equations
11: Solution of models of buoyancy-driven flow
1: The Poisson equation
2: Solution of discrete Poisson problems
3: The Stokes equations
4: Solution of discrete Stokes problems
5: Optimization with PDE constraints
6: The convection-diffusion equation
7: Solution of discrete convection-diffusion problems
8: The Navier-Stokes equations
9: Solution of discrete Navier-Stokes problems
10: Solution of unsteady Navier-Stokes equations
11: Solution of models of buoyancy-driven flow