A Choleski method is described and used to solve linear systems of equations that arise in large scale structural analysis. The method uses a novel variable-band storage scheme and is structured to exploit fast local memory caches while minimizing data access delays between main memory and vector registers. Several parallel implementations of this method are described for the CRAY-2 and CRAY Y-MP computers demonstrating the use of microtasking and autotasking directives. A portable parallel language, FORCE, is used for comparison with the microtasked and autotasked implementations. Results are presented comparing the matrix factorization times for three representative structural analysis problems from runs made in both dedicated and multi-u...
New massively parallel computer architecture has revolutionized the design of computer algorithms an...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
The analysis and design of complex aerospace structures requires the rapid solution of large systems...
A fast, accurate Choleski method for the solution of symmetric systems of linear equations is presen...
The bottleneck of most data analyzing systems, signal processing systems, and intensive computing sy...
Solving a system of linear equations is a key problem in the field of engineering and science. Matri...
We present accurate time and energy piece-wise models of high-performance multi-threaded implementat...
Several fine grained parallel algorithms were developed and compared to compute the Cholesky factori...
KFA Jülich is one of the largest big-science research centers in Europe. At KFA, computational scien...
We pursue the scalable parallel implementation of the factor- ization of band matrices with medium ...
AbstractA parallel algorithm is developed for Cholesky factorization on a shared-memory multiprocess...
Linear systems and the solving of those is an important tool in many areas of science. The solving o...
Two methods for solving linear systems of equations on the NAS Cray-2 are described. One is a direct...
Abstract. A style for programming problems from matrix algebra is developed with a familiar example ...
Abstract. We pursue the scalable parallel implementation of the factor-ization of band matrices with...
New massively parallel computer architecture has revolutionized the design of computer algorithms an...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
The analysis and design of complex aerospace structures requires the rapid solution of large systems...
A fast, accurate Choleski method for the solution of symmetric systems of linear equations is presen...
The bottleneck of most data analyzing systems, signal processing systems, and intensive computing sy...
Solving a system of linear equations is a key problem in the field of engineering and science. Matri...
We present accurate time and energy piece-wise models of high-performance multi-threaded implementat...
Several fine grained parallel algorithms were developed and compared to compute the Cholesky factori...
KFA Jülich is one of the largest big-science research centers in Europe. At KFA, computational scien...
We pursue the scalable parallel implementation of the factor- ization of band matrices with medium ...
AbstractA parallel algorithm is developed for Cholesky factorization on a shared-memory multiprocess...
Linear systems and the solving of those is an important tool in many areas of science. The solving o...
Two methods for solving linear systems of equations on the NAS Cray-2 are described. One is a direct...
Abstract. A style for programming problems from matrix algebra is developed with a familiar example ...
Abstract. We pursue the scalable parallel implementation of the factor-ization of band matrices with...
New massively parallel computer architecture has revolutionized the design of computer algorithms an...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
The analysis and design of complex aerospace structures requires the rapid solution of large systems...