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Parallel implementation of finite-element/newton method for solution of steady-state and transient nonlinear partial differential equations (1995)

Mehrabi, M. Reza ; Brown, Robert A.

Springer

Journal of scientific computing 10 (1995), S. 93-137

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ISSN: 1573-7691

Keywords: Domain decomposition ; nested dissection ; LU-factorization ; time integration ; Newton's method ; spectral elements ; finite elements

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science

Notes: Abstract Domain decomposition by nested dissection for concurrent factorization and storage (CFS) of asymmetric matrices is coupled with finite element and spectral element discretizations and with Newton's method to yield an algorithm for parallel solution of nonlinear initial-and boundary-value problem. The efficiency of the CFS algorithm implemented on a MIMD computer is demonstrated by analysis of the solution of the two-dimensional, Poisson equation discretized using both finite and spectral elements. Computation rates and speedups for the LU-decomposition algorithm, which is the most time consuming portion of the solution algorithm, scale with the number of processors. The spectral element discretization with high-order interpolating polynomials yields especially high speedups because the ratio of communication to computation is lower than for low-order finite element discretizations. The robustness of the parallel implementation of the finite-element/Newton algorithm is demonstrated by solution of steady and transient natural convection in a two-dimensional cavity, a standard test problem for low Prandtl number convection. Time integration is performed using a fully implicit algorithm with a modified Newton's method for solution of nonlinear equations at each time step. The efficiency of the CFS version of the finite-element/Newton algorithm compares well with a spectral element algorithm implemented on a MIMD computer using iterative matrix methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02087962

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An incomplete nested dissection algorithm for parallel direct solution of finite element discretizations of partial differential equations (1993)

Mehrabi, M. Reza ; Brown, Robert A.

Springer

Journal of scientific computing 8 (1993), S. 373-387

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ISSN: 1573-7691

Keywords: Domain decomposition ; nested dissection ; LU-factorization ; parallel computers ; MIMD

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science

Notes: Abstract A multilevel algorithm is presented for direct, parallel factorization of the large sparse matrices that arise from finite element and spectral element discretization of elliptic partial differential equations. Incomplete nested dissection and domain decomposition are used to distribute the domain among the processors and to organize the matrix into sections in which pivoting is applied to stabilize the factorization of indefinite equation sets. The algorithm is highly parallel and memory efficient; the efficient use of sparsity in the matrix allows the solution of larger problems as the number of processors is increased, and minimizes computations as well as the number and volume of communications among the processors. The number of messages and the total volume of messages passed during factorization, which are used as measures of algorithm efficiency, are reduced significantly compared to other algorithms. Factorization times are low and speedups high for implementation on an Intel iPSC/860 hypercube computer. Furthermore, the timings for forward and back substitutions are more than an order-of-magnitude smaller than the matrix decomposition times.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01061145

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