Numerical optimization of computing algorithms of the variational nodal method

W. S. Yang; G. Palmiotti; E. E. Lewis

Numerical optimization of computing algorithms of the variational nodal method

W. S. Yang, G. Palmiotti, E. E. Lewis

Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Numerical schemes have been developed for improving the computational efficiency of the variational nodal method (VNM). Reordering and orthogonal transformation schemes for nodal unknowns have been found for reducing the coefficient matrices of VNM into block-diagonal forms. The resulting block-diagonal forms of coefficient matrices make it possible to eliminate the unnecessary operations in matrix manipulations and hence reduce the computational time. These new schemes have been incorporated within the algorithms currently used in the variational nodal code VARIANT at Argonne National Laboratory. All primary algorithms ranging from the generation of response matrices to the iterative solution scheme for the response matrix equations have been modified to implement the new schemes. The efficiency of the new schemes has been tested on eigenvalue problems by comparing the computation times of the new and existing schemes. Three-dimensional calculations were performed in hexagonal and Cartesian geometry for various spatial and angular approximations. The test results show that very significant gains can be obtained especially for the coupling coefficient calculations in higher angular approximations. Almost an order of magnitude for the total computing time is achieved in the best case.

Original language	English (US)
Title of host publication	Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium
Publisher	American Nuclear Society
ISBN (Electronic)	0894486551, 9780894486555
State	Published - 2000
Event	2000 ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium, PHYSOR 2000 - Pittsburgh, United States Duration: May 7 2020 → May 12 2020

Publication series

Name	Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium

Conference

Conference	2000 ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium, PHYSOR 2000
Country/Territory	United States
City	Pittsburgh
Period	5/7/20 → 5/12/20

ASJC Scopus subject areas

Nuclear Energy and Engineering
Nuclear and High Energy Physics
Radiation
Safety, Risk, Reliability and Quality

Cite this

Yang, W. S., Palmiotti, G., & Lewis, E. E. (2000). Numerical optimization of computing algorithms of the variational nodal method. In Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium (Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium). American Nuclear Society.

Yang, W. S. ; Palmiotti, G. ; Lewis, E. E. / Numerical optimization of computing algorithms of the variational nodal method. Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium. American Nuclear Society, 2000. (Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium).

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title = "Numerical optimization of computing algorithms of the variational nodal method",

abstract = "Numerical schemes have been developed for improving the computational efficiency of the variational nodal method (VNM). Reordering and orthogonal transformation schemes for nodal unknowns have been found for reducing the coefficient matrices of VNM into block-diagonal forms. The resulting block-diagonal forms of coefficient matrices make it possible to eliminate the unnecessary operations in matrix manipulations and hence reduce the computational time. These new schemes have been incorporated within the algorithms currently used in the variational nodal code VARIANT at Argonne National Laboratory. All primary algorithms ranging from the generation of response matrices to the iterative solution scheme for the response matrix equations have been modified to implement the new schemes. The efficiency of the new schemes has been tested on eigenvalue problems by comparing the computation times of the new and existing schemes. Three-dimensional calculations were performed in hexagonal and Cartesian geometry for various spatial and angular approximations. The test results show that very significant gains can be obtained especially for the coupling coefficient calculations in higher angular approximations. Almost an order of magnitude for the total computing time is achieved in the best case.",

author = "Yang, {W. S.} and G. Palmiotti and Lewis, {E. E.}",

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Yang, WS, Palmiotti, G & Lewis, EE 2000, Numerical optimization of computing algorithms of the variational nodal method. in Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium. Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium, American Nuclear Society, 2000 ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium, PHYSOR 2000, Pittsburgh, United States, 5/7/20.

Numerical optimization of computing algorithms of the variational nodal method. / Yang, W. S.; Palmiotti, G.; Lewis, E. E.
Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium. American Nuclear Society, 2000. (Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AU - Palmiotti, G.

AU - Lewis, E. E.

N1 - Publisher Copyright: © 2000 Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium. All rights reserved.

PY - 2000

Y1 - 2000

N2 - Numerical schemes have been developed for improving the computational efficiency of the variational nodal method (VNM). Reordering and orthogonal transformation schemes for nodal unknowns have been found for reducing the coefficient matrices of VNM into block-diagonal forms. The resulting block-diagonal forms of coefficient matrices make it possible to eliminate the unnecessary operations in matrix manipulations and hence reduce the computational time. These new schemes have been incorporated within the algorithms currently used in the variational nodal code VARIANT at Argonne National Laboratory. All primary algorithms ranging from the generation of response matrices to the iterative solution scheme for the response matrix equations have been modified to implement the new schemes. The efficiency of the new schemes has been tested on eigenvalue problems by comparing the computation times of the new and existing schemes. Three-dimensional calculations were performed in hexagonal and Cartesian geometry for various spatial and angular approximations. The test results show that very significant gains can be obtained especially for the coupling coefficient calculations in higher angular approximations. Almost an order of magnitude for the total computing time is achieved in the best case.

AB - Numerical schemes have been developed for improving the computational efficiency of the variational nodal method (VNM). Reordering and orthogonal transformation schemes for nodal unknowns have been found for reducing the coefficient matrices of VNM into block-diagonal forms. The resulting block-diagonal forms of coefficient matrices make it possible to eliminate the unnecessary operations in matrix manipulations and hence reduce the computational time. These new schemes have been incorporated within the algorithms currently used in the variational nodal code VARIANT at Argonne National Laboratory. All primary algorithms ranging from the generation of response matrices to the iterative solution scheme for the response matrix equations have been modified to implement the new schemes. The efficiency of the new schemes has been tested on eigenvalue problems by comparing the computation times of the new and existing schemes. Three-dimensional calculations were performed in hexagonal and Cartesian geometry for various spatial and angular approximations. The test results show that very significant gains can be obtained especially for the coupling coefficient calculations in higher angular approximations. Almost an order of magnitude for the total computing time is achieved in the best case.

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Yang WS, Palmiotti G, Lewis EE. Numerical optimization of computing algorithms of the variational nodal method. In Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium. American Nuclear Society. 2000. (Proceedings of the PHYSOR 2000 - ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium).

Numerical optimization of computing algorithms of the variational nodal method

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ASJC Scopus subject areas

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