Acceleration of material-dominated calculations via phase-space simplicial subdivision and interpolation

B. Klusemann; M. Ortiz

doi:10.1002/nme.4887

Acceleration of material-dominated calculations via phase-space simplicial subdivision and interpolation

B. Klusemann^*
, M. Ortiz

^*Corresponding author for this work

Research output: Journal contributions › Journal articles › Research › peer-review

5 Citations (Scopus)

Abstract

We develop an acceleration method for material-dominated calculations based on phase-space simplicial interpolation of the relevant material-response functions. This process of interpolation constitutes an approximation scheme by which an exact material-response function is replaced by a sequence of approximating response functions. The terms in the sequence are increasingly accurate, thus ensuring the convergence of the overall solution. The acceleration ratio depends on the dimensionality, the complexity of the deformation, the time-step size, and the fineness of the phase-space interpolation. We ascertain these trade-offs analytically and by recourse to selected numerical tests. The numerical examples with piecewise-quadratic interpolation in phase space confirm the analytical estimates.

Original language	English
Journal	International Journal for Numerical Methods in Engineering
Volume	103
Issue number	4
Pages (from-to)	256-274
Number of pages	19
ISSN	0029-5981
DOIs	https://doi.org/10.1002/nme.4887
Publication status	Published - 27.07.2015
Externally published	Yes

Research areas and keywords

Engineering
acceleration
explicit dynamics
simplex
solution space subdivision
piecewise-linear interpolation
piecewise-quadratic interpolation

ASJC Scopus Subject Areas

Engineering(all)
Applied Mathematics
Numerical Analysis

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10.1002/nme.4887

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title = "Acceleration of material-dominated calculations via phase-space simplicial subdivision and interpolation",

abstract = "We develop an acceleration method for material-dominated calculations based on phase-space simplicial interpolation of the relevant material-response functions. This process of interpolation constitutes an approximation scheme by which an exact material-response function is replaced by a sequence of approximating response functions. The terms in the sequence are increasingly accurate, thus ensuring the convergence of the overall solution. The acceleration ratio depends on the dimensionality, the complexity of the deformation, the time-step size, and the fineness of the phase-space interpolation. We ascertain these trade-offs analytically and by recourse to selected numerical tests. The numerical examples with piecewise-quadratic interpolation in phase space confirm the analytical estimates.",

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TY - JOUR

T1 - Acceleration of material-dominated calculations via phase-space simplicial subdivision and interpolation

AU - Klusemann, B.

AU - Ortiz, M.

PY - 2015/7/27

Y1 - 2015/7/27

N2 - We develop an acceleration method for material-dominated calculations based on phase-space simplicial interpolation of the relevant material-response functions. This process of interpolation constitutes an approximation scheme by which an exact material-response function is replaced by a sequence of approximating response functions. The terms in the sequence are increasingly accurate, thus ensuring the convergence of the overall solution. The acceleration ratio depends on the dimensionality, the complexity of the deformation, the time-step size, and the fineness of the phase-space interpolation. We ascertain these trade-offs analytically and by recourse to selected numerical tests. The numerical examples with piecewise-quadratic interpolation in phase space confirm the analytical estimates.

AB - We develop an acceleration method for material-dominated calculations based on phase-space simplicial interpolation of the relevant material-response functions. This process of interpolation constitutes an approximation scheme by which an exact material-response function is replaced by a sequence of approximating response functions. The terms in the sequence are increasingly accurate, thus ensuring the convergence of the overall solution. The acceleration ratio depends on the dimensionality, the complexity of the deformation, the time-step size, and the fineness of the phase-space interpolation. We ascertain these trade-offs analytically and by recourse to selected numerical tests. The numerical examples with piecewise-quadratic interpolation in phase space confirm the analytical estimates.

KW - Engineering

KW - acceleration

KW - explicit dynamics

KW - simplex

KW - solution space subdivision

KW - piecewise-linear interpolation

KW - piecewise-quadratic interpolation

UR - https://www.scopus.com/pages/publications/84934278852

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DO - 10.1002/nme.4887

M3 - Journal articles

AN - SCOPUS:84934278852

SN - 0029-5981

VL - 103

SP - 256

EP - 274

JO - International Journal for Numerical Methods in Engineering

JF - International Journal for Numerical Methods in Engineering

IS - 4

ER -

Acceleration of material-dominated calculations via phase-space simplicial subdivision and interpolation

Abstract

Research areas and keywords

ASJC Scopus Subject Areas

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