Design Of Adaptive Finite Element Software: The Finite Element Toolbox Alberta (lecture Notes In Computational Science And Engineering)
by Kunibert G. Siebert /
2005 / English / PDF
3.1 MB Download
During the last years, scientific computing has become an
important research branch located between applied mathematics and
applied sciences and engineering. Highly efficient numerical
methods are based on adaptive methods, higher order
discretizations, fast linear and non-linear iterative solvers,
multi-level algorithms, etc. Such methods are integrated in the
adaptive finite element software ALBERTA. It is a toolbox for the
fast and flexible implementation of efficient software for real
life applications, based on modern algorithms. ALBERTA also
serves as an environment for improving existent, or developing
new numerical methods in an interplay with mathematical analysis
and it allows the direct integration of such new or improved
methods in existing simulation software.
During the last years, scientific computing has become an
important research branch located between applied mathematics and
applied sciences and engineering. Highly efficient numerical
methods are based on adaptive methods, higher order
discretizations, fast linear and non-linear iterative solvers,
multi-level algorithms, etc. Such methods are integrated in the
adaptive finite element software ALBERTA. It is a toolbox for the
fast and flexible implementation of efficient software for real
life applications, based on modern algorithms. ALBERTA also
serves as an environment for improving existent, or developing
new numerical methods in an interplay with mathematical analysis
and it allows the direct integration of such new or improved
methods in existing simulation software.
