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David W. Zingg

Affiliations:
  • University of Toronto, Canada


According to our database1, David W. Zingg authored at least 37 papers between 1992 and 2023.

Collaborative distances:
  • Dijkstra number2 of four.
  • Erdős number3 of four.

Timeline

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Links

Online presence:

On csauthors.net:

Bibliography

2023
A Non-intrusive Solution to the Ill-Conditioning Problem of the Gradient-Enhanced Gaussian Covariance Matrix for Gaussian Processes.
[BibTeX]
[DOI]
André L. Marchildon
,
David W. Zingg
J. Sci. Comput., May, 2023

Efficient Entropy-Stable Discontinuous Spectral-Element Methods Using Tensor-Product Summation-by-Parts Operators on Triangles and Tetrahedra.
[BibTeX]
[DOI]
Tristan Montoya
,
David W. Zingg
CoRR, 2023

Quadrature Rules on Triangles and Tetrahedra for Multidimensional Summation-By-Parts Operators.
[BibTeX]
[DOI]
Zelalem Arega Worku
,
Jason E. Hicken
,
David W. Zingg
CoRR, 2023

Efficient Tensor-Product Spectral-Element Operators with the Summation-by-Parts Property on Curved Triangles and Tetrahedra.
[BibTeX]
[DOI]
Tristan Montoya
,
David W. Zingg
CoRR, 2023

Entropy-split multidimensional summation-by-parts discretization of the Euler and Navier-Stokes equations.
[BibTeX]
[DOI]
Zelalem Arega Worku
,
David W. Zingg
CoRR, 2023

2022
Stability and Functional Superconvergence of Narrow-Stencil Second-Derivative Generalized Summation-By-Parts Discretizations.
[BibTeX]
[DOI]
Zelalem Arega Worku
,
David W. Zingg
J. Sci. Comput., 2022

Accurate High-Order Tensor-Product Generalized Summation-By-Parts Discretizations of Hyperbolic Conservation Laws: General Curved Domains and Functional Superconvergence.
[BibTeX]
[DOI]
David A. Craig Penner
,
David W. Zingg
J. Sci. Comput., 2022

A Unifying Algebraic Framework for Discontinuous Galerkin and Flux Reconstruction Methods Based on the Summation-by-Parts Property.
[BibTeX]
[DOI]
Tristan Montoya
,
David W. Zingg
J. Sci. Comput., 2022

Unisolvency for Polynomial Interpolation in Simplices with Symmetrical Nodal Distributions.
[BibTeX]
[DOI]
André L. Marchildon
,
David W. Zingg
J. Sci. Comput., 2022

2021
Simultaneous approximation terms and functional accuracy for diffusion problems discretized with multidimensional summation-by-parts operators.
[BibTeX]
[DOI]
Zelalem Arega Worku
,
David W. Zingg
J. Comput. Phys., 2021

2020
Entropy-Stable Multidimensional Summation-by-Parts Discretizations on hp-Adaptive Curvilinear Grids for Hyperbolic Conservation Laws.
[BibTeX]
[DOI]
Siavosh Shadpey
,
David W. Zingg
J. Sci. Comput., 2020

Superconvergent Functional Estimates from Tensor-Product Generalized Summation-by-Parts Discretizations in Curvilinear Coordinates.
[BibTeX]
[DOI]
David A. Craig Penner
,
David W. Zingg
J. Sci. Comput., 2020

Optimization of multidimensional diagonal-norm summation-by-parts operators on simplices.
[BibTeX]
[DOI]
André L. Marchildon
,
David W. Zingg
J. Comput. Phys., 2020

2019
Extension of Tensor-Product Generalized and Dense-Norm Summation-by-Parts Operators to Curvilinear Coordinates.
[BibTeX]
[DOI]
David C. Del Rey Fernández
,
Pieter D. Boom
,
Mark H. Carpenter
,
David W. Zingg
J. Sci. Comput., 2019

Monolithic homotopy continuation with predictor based on higher derivatives.
[BibTeX]
[DOI]
David A. Brown
,
David W. Zingg
J. Comput. Appl. Math., 2019

2018
Matrix-free monolithic homotopy continuation with application to computational aerodynamics.
[BibTeX]
[DOI]
David A. Brown
,
David W. Zingg
Numer. Algorithms, 2018

Conservative and Stable Degree Preserving SBP Operators for Non-conforming Meshes.
[BibTeX]
[DOI]
Lucas Friedrich
,
David C. Del Rey Fernández
,
Andrew R. Winters
,
Gregor J. Gassner
,
David W. Zingg
,
Jason E. Hicken
J. Sci. Comput., 2018

Simultaneous Approximation Terms for Multi-dimensional Summation-by-Parts Operators.
[BibTeX]
[DOI]
David C. Del Rey Fernández
,
Jason E. Hicken
,
David W. Zingg
J. Sci. Comput., 2018

Entropy-stable summation-by-parts discretization of the Euler equations on general curved elements.
[BibTeX]
[DOI]
Jared Crean
,
Jason E. Hicken
,
David C. Del Rey Fernández
,
David W. Zingg
,
Mark H. Carpenter
J. Comput. Phys., 2018

Optimization of high-order diagonally-implicit Runge-Kutta methods.
[BibTeX]
[DOI]
Pieter D. Boom
,
David W. Zingg
J. Comput. Phys., 2018

2017
Corner-corrected diagonal-norm summation-by-parts operators for the first derivative with increased order of accuracy.
[BibTeX]
[DOI]
David C. Del Rey Fernández
,
Pieter D. Boom
,
David W. Zingg
J. Comput. Phys., 2017

2016
Multidimensional Summation-by-Parts Operators: General Theory and Application to Simplex Elements.
[BibTeX]
[DOI]
Jason E. Hicken
,
David C. Del Rey Fernández
,
David W. Zingg
SIAM J. Sci. Comput., 2016

A monolithic homotopy continuation algorithm with application to computational fluid dynamics.
[BibTeX]
[DOI]
David A. Brown
,
David W. Zingg
J. Comput. Phys., 2016

Efficient numerical differentiation of implicitly-defined curves for sparse systems.
[BibTeX]
[DOI]
David A. Brown
,
David W. Zingg
J. Comput. Appl. Math., 2016

2015
Generalized Summation-by-Parts Operators for the Second Derivative.
[BibTeX]
[DOI]
David C. Del Rey Fernández
,
David W. Zingg
SIAM J. Sci. Comput., 2015

High-Order Implicit Time-Marching Methods Based on Generalized Summation-By-Parts Operators.
[BibTeX]
[DOI]
Pieter D. Boom
,
David W. Zingg
SIAM J. Sci. Comput., 2015

2014
Dual consistency and functional accuracy: a finite-difference perspective.
[BibTeX]
[DOI]
Jason E. Hicken
,
David W. Zingg
J. Comput. Phys., 2014

A generalized framework for nodal first derivative summation-by-parts operators.
[BibTeX]
[DOI]
David C. Del Rey Fernández
,
Pieter D. Boom
,
David W. Zingg
J. Comput. Phys., 2014

Generalized Summation-by-Parts Operators for the Second Derivative with Variable Coefficients.
[BibTeX]
[DOI]
David C. Del Rey Fernández
,
David W. Zingg
CoRR, 2014

2013
Summation-by-parts operators and high-order quadrature.
[BibTeX]
[DOI]
Jason E. Hicken
,
David W. Zingg
J. Comput. Appl. Math., 2013

2011
Superconvergent Functional Estimates from Summation-By-Parts Finite-Difference Discretizations.
[BibTeX]
[DOI]
Jason E. Hicken
,
David W. Zingg
SIAM J. Sci. Comput., 2011

2010
A Simplified and Flexible Variant of GCROT for Solving Nonsymmetric Linear Systems.
[BibTeX]
[DOI]
Jason E. Hicken
,
David W. Zingg
SIAM J. Sci. Comput., 2010

2009
A Jacobian-free Newton-Krylov algorithm for compressible turbulent fluid flows.
[BibTeX]
[DOI]
Todd T. Chisholm
,
David W. Zingg
J. Comput. Phys., 2009

2001
Numerical Solution of the Time-Domain Maxwell Equations Using High-Accuracy Finite-Difference Methods.
[BibTeX]
[DOI]
Henry M. Jurgens
,
David W. Zingg
SIAM J. Sci. Comput., 2001

2000
Comparison of High-Accuracy Finite-Difference Methods for Linear Wave Propagation.
[BibTeX]
[DOI]
David W. Zingg
SIAM J. Sci. Comput., 2000

1996
High-Accuracy Finite-Difference Schemes for Linear Wave Propagation.
[BibTeX]
[DOI]
David W. Zingg
,
Harvard Lomax
,
Henry M. Jurgens
SIAM J. Sci. Comput., 1996

1992
A Method of Smooth Bivariate Interpolation for Data Given on a Generalized Curvilinear Grid.
[BibTeX]
[DOI]
David W. Zingg
,
Maurice Yarrow
SIAM J. Sci. Comput., 1992


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