Follow
David Michael Williams
David Michael Williams
Assistant Professor in Mechanical Engineering, Pennsylvania State University
Verified email at psu.edu - Homepage
Title
Cited by
Cited by
Year
Energy stable flux reconstruction schemes for advection–diffusion problems
P Castonguay, DM Williams, PE Vincent, A Jameson
Computer Methods in Applied Mechanics and Engineering 267, 400-417, 2013
1032013
Energy stable flux reconstruction schemes for advection–diffusion problems on triangles
DM Williams, P Castonguay, PE Vincent, A Jameson
Journal of Computational Physics 250, 53-76, 2013
832013
On the development of a high-order, multi-GPU enabled, compressible viscous flow solver for mixed unstructured grids
P Castonguay, D Williams, P Vincent, M Lopez, A Jameson
20th AIAA computational fluid dynamics conference, 3229, 2011
742011
Energy stable flux reconstruction schemes for advection–diffusion problems on tetrahedra
DM Williams, A Jameson
Journal of Scientific Computing 59, 721-759, 2014
602014
Symmetric quadrature rules for simplexes based on sphere close packed lattice arrangements
DM Williams, L Shunn, A Jameson
Journal of Computational and Applied Mathematics 266, 18-38, 2014
542014
An extension of energy stable flux reconstruction to unsteady, non-linear, viscous problems on mixed grids
D Williams, P Castonguay, P Vincent, A Jameson
20th AIAA Computational Fluid Dynamics Conference, 3405, 2011
312011
Verification and validation of HiFiLES: A high-order LES unstructured solver on multi-GPU platforms
M Lopez-Morales, J Bull, J Crabill, TD Economon, D Manosalvas, ...
32nd AIAA applied aerodynamics conference, Atlanta, Georgia, USA, 16-20, 2014
272014
Energy stable high-order methods for simulating unsteady, viscous, compressible flows on unstructured grids
DM Williams
Stanford University, 2013
222013
Nodal points and the nonlinear stability of high-order methods for unsteady flow problems on tetrahedral meshes
DM Williams, A Jameson
21st AIAA Computational Fluid Dynamics Conference, 2830, 2013
222013
An entropy stable, hybridizable discontinuous Galerkin method for the compressible Navier-Stokes equations
D Williams
Mathematics of Computation 87 (309), 95-121, 2018
202018
Foundations of space-time finite element methods: Polytopes, interpolation, and integration
CV Frontin, GS Walters, FD Witherden, CW Lee, DM Williams, ...
Applied Numerical Mathematics 166, 92-113, 2021
142021
A family of symmetric, optimized quadrature rules for pentatopes
DM Williams, CV Frontin, EA Miller, DL Darmofal
Computers & Mathematics with Applications 80 (5), 1405-1420, 2020
122020
On stagnation pressure increases in calorically perfect, ideal gases
DM Williams, DS Kamenetskiy, PR Spalart
International Journal of Heat and Fluid Flow 58, 40-53, 2016
112016
Versatile mixed methods for the incompressible Navier–Stokes equations
X Chen, DM Williams
Computers & Mathematics with Applications 80 (6), 1555-1577, 2020
102020
An analysis of discontinuous Galerkin methods for the compressible Euler equations: entropy and stability
DM Williams
Numerische Mathematik 141 (4), 1079-1120, 2019
92019
Enabling four-dimensional conformal hybrid meshing with cubic pyramids
MS Petrov, TD Todorov, GS Walters, DM Williams, FD Witherden
Numerical Algorithms 91 (2), 671-709, 2022
42022
An implicit discontinuous Galerkin finite element discrete Boltzmann method for high Knudsen number flows
K Ganeshan, DM Williams
Physics of Fluids 33 (3), 2021
42021
Generalized polynomial chaos with optimized quadrature applied to a turbulent boundary layer forced plate
AS Wixom, GS Walters, SL Martinelli, DM Williams
Journal of Computational and Nonlinear Dynamics 14 (2), 021010, 2019
42019
Surface And Hypersurface Meshing Techniques for Space–Time Finite Element Methods
JT Anderson, DM Williams, A Corrigan
Computer-Aided Design 163, 103574, 2023
32023
Versatile mixed methods for non-isothermal incompressible flows
EA Miller, X Chen, DM Williams
Computers & Mathematics with Applications 125, 150-175, 2022
22022
The system can't perform the operation now. Try again later.
Articles 1–20