T. L. Tysinger and D. A. Caughey. Alternating direction implicit methods for the Navier Stokes equations. AIAA J., 30:2158--2161, 1992.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....and parabolic differential equations. The first use of ADI methods was to reduce the solution of equations in higher dimensions to the solution of multiple tridiagonal systems [13, 16] for which efficient algorithms are available. ADI methods continue to be used as smoothers for multigrid methods [15, 20] in the serial case. However, in the case of computing on parallel computers, the solution of tridiagonal systems is no longer an inexpensive operation. In the case of computing on parallel computers, the solution of tridiagonal systems is efficient only so long as the required data is wholly ....

T. L. Tysinger and D. A. Caughey. Alternating direction implicit methods for the Navier Stokes equations. AIAA J., 30:2158--2161, 1992.

....and parabolic differential equations. The first use of ADI methods was to reduce the solution of equations in higher dimensions to the solution of multiple tridiagonal systems [13, 16] for which efficient algorithms are available. ADI methods continue to be used as smoothers for multigrid methods [15, 20] in the serial case. However, in the case of computing on parallel computers, the solution of tridiagonal systems is no longer an inexpensive operation. In the case of computing on parallel computers, the solution of tridiagonal systems is efficient only so long as the required data is wholly ....

T. L. Tysinger and D. A. Caughey. Alternating direction implicit methods for the Navier Stokes equations. AIAA J., 30:2158--2161, 1992.

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T. L. Tysinger and D. A. Caughey. Alternating direction implicit methods for the Navier Stokes equations. AIAA J., 30:2158--2161, 1992.

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