MPP systems with a message-passing programming paradigm such as CRAY T3E still play an important role in high performance scientific computing and so there is need for basic numerical software for those systems. There are several libraries for numerical linear algebra computations with message-passing available most of which are public domain libraries. The eigensystem solvers of some of these libraries are compared taking into account not only performance but also user-friendliness. Furthermore, the results attained on a PVP CRAY T90 vector supercomputer with shared-memory parallelism are discussed
Techniques for the vectorization and parallelization of a sequential code for evaluating, one at a t...
The solution of the symmetric eigenvalue problem is a compute-intensive task in many scientific and ...
We investigate a method for efficiently solving a complex symmetric (non-Hermitian) generalized eige...
Parallel eigensolver operations are at the computational core of many large-scale scientific and eng...
Mathematical software libraries represent collections of subprograms for the solution of frequently ...
AbstractMathematical software libraries represent collections of subprograms for the solution of fre...
The transputer is a fast microprocessor, unique in its linking ability to provide a framework for bu...
Methods for the polynomial eigenvalue problem often require to be followed by an iterative refinemen...
The efficient use of the SUPRENUM computer calls for a careful choice of adequate algorithms and an ...
Mathematical software libraries (IMSL, NAG) supply subprograms for the solution of a broad class of ...
This proposal concerned the design, analysis, and implementation of serial and parallel algorithms f...
A parallel algorithm for the calculation of the p leftmost eigenpairs of large, sparse F.E.M. matric...
AbstractThe design and analysis of time-invariant linear control systems give rise to a variety of i...
We survey general techniques and open problems in numerical linear algebra on parallel architectures...
The real symmetric tridiagonal eigenproblem is of outstanding importance in numerical computations; ...
Techniques for the vectorization and parallelization of a sequential code for evaluating, one at a t...
The solution of the symmetric eigenvalue problem is a compute-intensive task in many scientific and ...
We investigate a method for efficiently solving a complex symmetric (non-Hermitian) generalized eige...
Parallel eigensolver operations are at the computational core of many large-scale scientific and eng...
Mathematical software libraries represent collections of subprograms for the solution of frequently ...
AbstractMathematical software libraries represent collections of subprograms for the solution of fre...
The transputer is a fast microprocessor, unique in its linking ability to provide a framework for bu...
Methods for the polynomial eigenvalue problem often require to be followed by an iterative refinemen...
The efficient use of the SUPRENUM computer calls for a careful choice of adequate algorithms and an ...
Mathematical software libraries (IMSL, NAG) supply subprograms for the solution of a broad class of ...
This proposal concerned the design, analysis, and implementation of serial and parallel algorithms f...
A parallel algorithm for the calculation of the p leftmost eigenpairs of large, sparse F.E.M. matric...
AbstractThe design and analysis of time-invariant linear control systems give rise to a variety of i...
We survey general techniques and open problems in numerical linear algebra on parallel architectures...
The real symmetric tridiagonal eigenproblem is of outstanding importance in numerical computations; ...
Techniques for the vectorization and parallelization of a sequential code for evaluating, one at a t...
The solution of the symmetric eigenvalue problem is a compute-intensive task in many scientific and ...
We investigate a method for efficiently solving a complex symmetric (non-Hermitian) generalized eige...