A fast, accurate Choleski method for the solution of symmetric systems of linear equations is presented. This direct method is based on a variable-band storage scheme and takes advantage of column heights to reduce the number of operations in the Choleski factorization. The method employs parallel computation in the outermost DO-loop and vector computation via the loop unrolling technique in the innermost DO-loop. The method avoids computations with zeros outside the column heights, and as an option, zeros inside the band. The close relationship between Choleski and Gauss elimination methods is examined. The minor changes required to convert the Choleski code to a Gauss code to solve non-positive-definite symmetric systems of equations are ...
The work of several graduate students which relate to the NASA grant is briefly summarized. One stud...
The bottleneck of most data analyzing systems, signal processing systems, and intensive computing sy...
Several fine grained parallel algorithms were developed and compared to compute the Cholesky factori...
A Choleski method is described and used to solve linear systems of equations that arise in large sca...
The analysis and design of complex aerospace structures requires the rapid solution of large systems...
For the solution of symmetric linear systems, the classical Cholesky method has proved to be difficu...
Two methods for solving linear systems of equations on the NAS Cray-2 are described. One is a direct...
This paper shows the abilities of the parallel processing in the solution of linear equation systems...
AbstractThe solution of linear systems continues to play an important role in scientific computing. ...
The theory, computational analysis, and applications are presented of a Lanczos algorithm on high pe...
As sequential computers seem to be approaching their limits in CPU speed there is increasing intere...
Solving many problems in mechanics, engineering, medicine and other (e.g., diffusion tensor magnetic...
Parallel computers offer the opportunity to significantly reduce the computation time necessary to a...
Solving a system of linear equations is a key problem in the field of engineering and science. Matri...
New massively parallel computer architecture has revolutionized the design of computer algorithms an...
The work of several graduate students which relate to the NASA grant is briefly summarized. One stud...
The bottleneck of most data analyzing systems, signal processing systems, and intensive computing sy...
Several fine grained parallel algorithms were developed and compared to compute the Cholesky factori...
A Choleski method is described and used to solve linear systems of equations that arise in large sca...
The analysis and design of complex aerospace structures requires the rapid solution of large systems...
For the solution of symmetric linear systems, the classical Cholesky method has proved to be difficu...
Two methods for solving linear systems of equations on the NAS Cray-2 are described. One is a direct...
This paper shows the abilities of the parallel processing in the solution of linear equation systems...
AbstractThe solution of linear systems continues to play an important role in scientific computing. ...
The theory, computational analysis, and applications are presented of a Lanczos algorithm on high pe...
As sequential computers seem to be approaching their limits in CPU speed there is increasing intere...
Solving many problems in mechanics, engineering, medicine and other (e.g., diffusion tensor magnetic...
Parallel computers offer the opportunity to significantly reduce the computation time necessary to a...
Solving a system of linear equations is a key problem in the field of engineering and science. Matri...
New massively parallel computer architecture has revolutionized the design of computer algorithms an...
The work of several graduate students which relate to the NASA grant is briefly summarized. One stud...
The bottleneck of most data analyzing systems, signal processing systems, and intensive computing sy...
Several fine grained parallel algorithms were developed and compared to compute the Cholesky factori...