scientific article; zbMATH DE number 3553634
From MaRDI portal
Publication:4127256
zbMath0355.65018MaRDI QIDQ4127256
Publication date: 1977
Title: zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Numerical linear algebra (65Fxx) Introductory exposition (textbooks, tutorial papers, etc.) pertaining to numerical analysis (65-01) Introductory exposition (textbooks, tutorial papers, etc.) pertaining to linear algebra (15-01)
Related Items (43)
Improved preconditioned conjugate gradient method and its application in finite element analysis for engineering ⋮ AN ITERATIVE SOLUTION SCHEME FOR SYSTEMS OF WEAKLY CONNECTED BOUNDARY ELEMENT EQUATIONS ⋮ Towards generalization and optimization of implicit methods ⋮ Added mass for fluid-structure vibration problems ⋮ Localization of Hopf bifurcations in fluid flow problems ⋮ On the Gauss, Cholesky and Householder algorithms ⋮ A finite-element implementation of a mixed extremum principle for linear elasticity ⋮ Some basic information on information-based complexity theory ⋮ An algorithm for profile and wavefront reduction of sparse matrices ⋮ A comparison of finite element and finite difference solutions of the one- and two-dimensional Burgers' equations ⋮ Overlapping vs partitioning in block-iteration methods: Application in large-scale system theory ⋮ Symbolic implicit Monte Carlo ⋮ An iterative solution scheme for systems of boundary element equations ⋮ PCG methods in transient FE analysis. Part I: First order problems ⋮ Accelerated bisection techniques for tri‐ and quindiagonal matrices ⋮ A numerical solution for the \(\lambda(n)/C_2/r/N\) queue ⋮ Comparison of implicit and symbolic implicit Monte Carlo line transport with frequency weight vector extension ⋮ A block iteration scheme for the solution of systems of equations resulting from linear and nonlinear finite element models ⋮ Method of computing the inverse of a matrix whose elements are a linear combination of Walsh functions ⋮ Symmetric accelerated overrelaxation (saor) method ⋮ Rustishauser's modified method for computing the eigenvalues of symmetric matrices ⋮ An asynchronous parallel version of the power method ⋮ Parallel ocean general circulation modeling ⋮ A robust incomplete Choleski-conjugate gradient algorithm ⋮ An improved accelerated initial stress procedure for elasto-plastic finite element analysis ⋮ Non-iterative solution of a tridiagonal-type matrix coupled by diagonal submatrices ⋮ Simulation of Y-chromosomal haplotype data ⋮ The solution of sparse linear equations by the conjugate gradient method ⋮ Modification of iterative processes for improved convergence characteristics ⋮ Continuous finite difference approximations for solving differential equations ⋮ A novel fully‐implicit finite volume method applied to the lid‐driven cavity problem—Part II: Linear stability analysis ⋮ Krylov subspace methods for eigenvalues with special properties and their analysis for normal matrices ⋮ New method for computing the inverse of a matrix whose elements are linear combinations of Walsh functions ⋮ Optimization of primal and dual network models of distribution ⋮ On the application of mixed methods to solve problems on solids of revolution with discrete fixed supports ⋮ Solving linear finite element systems by normalized approximate matrix factorization semi-direct methods ⋮ Generalized extended to the limit sparse factorization techniques for solving unsymmetric finite element systems ⋮ A survey of Lanczos procedures for very large real 'symmetric' eigenvalue problems ⋮ Solution algorithms for nonlinear transient heat conduction analysis employing element-by-element iterative strategies ⋮ The stability robustness determination of state space models with real unstructured perturbations ⋮ Heterogeneous multiprocessor systems with breakdowns: Performance and optimal repair strategies ⋮ Addressing the envelope reduction of sparse matrices using a genetic programming system ⋮ An exploratory study of a subspace iteration method as an alternative to the QR method for Floquet eigenanalysis
This page was built for publication:
