Gigaflop speed algorithm for the direct solution of large block-tridiagonal systems in 3-D physics applications

Abstract: In the discretization of the 3-D partial differential equations of many physics problems, it is found that the resultant system of linear equations can be represented by a block tridiagonal matrix. Depending on the substructure of the blocks, one can devise many algorithms for the solution of these systems. For plasma physics problems of interest to the authors, several interesting matrix problems arise that should be useful in other applications as well. In one case, where the blocks are dense, it was found t… Show more

“…Since our matrix system is full block diagonal, we have chosen to use direct methods for its solution. We have developed the solvers PAMS and PAMERA for the block multidiagonal systems of TERPSICHORE (Anderson et al, 1989). PAMS uses a block cyclic-reduction method that can be multitasked at a high level of parallelism while PAMERA uses a variant of block Gaussian that multitasks at a level of about two.…”

Methods for the Efficient Calculation of the (Mhd) Magnetohydrodynamic Stability Properties of Magnetically Confined Fusion Plasmas

“…Since our matrix system is full block diagonal, we have chosen to use direct methods for its solution. We have developed the solvers PAMS and PAMERA for the block multidiagonal systems of TERPSICHORE (Anderson et al, 1989). PAMS uses a block cyclic-reduction method that can be multitasked at a high level of parallelism while PAMERA uses a variant of block Gaussian that multitasks at a level of about two.…”

Methods for the Efficient Calculation of the (Mhd) Magnetohydrodynamic Stability Properties of Magnetically Confined Fusion Plasmas

TERPSICHORE: A Three-Dimensional Ideal Magnetohydrodynamic Stability Program

Parallelisierung von Mehrgitteralgorithmen auf der Alliant FX/80