Vladimir Zdravkov Tomov
Vladimir Zdravkov Tomov
Verified email at llnl.gov - Homepage
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High-order local maximum principle preserving (MPP) discontinuous Galerkin finite element method for the transport equation
R Anderson, V Dobrev, T Kolev, D Kuzmin, MQ de Luna, R Rieben, ...
Journal of Computational Physics 334, 102-124, 2017
High-order multi-material ALE hydrodynamics
RW Anderson, VA Dobrev, TV Kolev, RN Rieben, VZ Tomov
SIAM Journal on Scientific Computing 40 (1), B32-B58, 2018
MFEM: a modular finite element methods library
R Anderson, J Andrej, A Barker, J Bramwell, JS Camier, J Cerveny, ...
arXiv preprint arXiv:1911.09220, 2019
Entropy–viscosity method for the single material Euler equations in Lagrangian frame
JL Guermond, B Popov, V Tomov
Computer Methods in Applied Mechanics and Engineering 300, 402-426, 2016
Multi‐material closure model for high‐order finite element Lagrangian hydrodynamics
VA Dobrev, TV Kolev, RN Rieben, VZ Tomov
International Journal for Numerical Methods in Fluids 82 (10), 689-706, 2016
An Efficient Sweep-Based Solver for the SN Equations on High-Order Meshes
TS Haut, PG Maginot, VZ Tomov, BS Southworth, TA Brunner, TS Bailey
Nuclear Science and Engineering 193 (7), 746-759, 2019
Sequential limiting in continuous and discontinuous Galerkin methods for the Euler equations
V Dobrev, T Kolev, D Kuzmin, R Rieben, V Tomov
Journal of Computational Physics 356, 372-390, 2018
The target-matrix optimization paradigm for high-order meshes
V Dobrev, P Knupp, T Kolev, K Mittal, V Tomov
SIAM Journal on Scientific Computing 41 (1), B50-B68, 2019
Algebraic Hybridization and Static Condensation with Application to Scalable (div) Preconditioning
V Dobrev, T Kolev, CS Lee, V Tomov, PS Vassilevski
SIAM Journal on Scientific Computing 41 (3), B425-B447, 2019
Matrix-free subcell residual distribution for Bernstein finite elements: Monolithic limiting
H Hajduk, D Kuzmin, T Kolev, V Tomov, I Tomas, JN Shadid
Computers & Fluids 200, 104451, 2020
Towards simulation-driven optimization of high-order meshes by the Target-Matrix Optimization Paradigm
V Dobrev, P Knupp, T Kolev, V Tomov
International Meshing Roundtable, 285-302, 2018
Diffusion Synthetic Acceleration Preconditioning for Discontinuous Galerkin Discretizations of Transport on High-Order Curved Meshes
TS Haut, BS Southworth, PG Maginot, VZ Tomov
SIAM Journal on Scientific Computing 42 (5), B1271-B1301, 2020
A quadratic programming flux correction method for high-order DG discretizations of SN transport
BC Yee, SS Olivier, TS Haut, M Holec, VZ Tomov, PG Maginot
Journal of Computational Physics 419, 109696, 2020
Simulation-Driven Optimization of High-Order Meshes in ALE Hydrodynamics
V Dobrev, P Knupp, T Kolev, K Mittal, R Rieben, V Tomov
Computers & Fluids, 104602, 2020
A Matrix-Free Hyperviscosity Formulation for High-Order ALE Hydrodynamics
PD Bello-Maldonado, TV Kolev, RN Rieben, VZ Tomov
Computers & Fluids, 104577, 2020
ECP Milestone Report Public release of CEED 1.0 WBS 2.2. 6.06, Milestone CEED-MS13
J Brown, A Abdelfata, JS Camier, V Dobrev, J Dongarra, P Fischer, ...
Available at: ceed. exascaleproject. org/docs/ceed-ms13-report. pdf …, 2018
Central schemes for mean field games
B Popov, V Tomov
Communications in Mathematical Sciences 13 (8), 2177-2194, 2015
Conservative High-Order Time Integration for Lagrangian Hydrodynamics
A Sandu, V Tomov, L Cervena, T Kolev
SIAM Journal on Scientific Computing 43 (1), A221-A241, 2021
hr-adaptivity for nonconforming high-order meshes with the target matrix optimization paradigm
V Dobrev, P Knupp, T Kolev, K Mittal, V Tomov
arXiv preprint arXiv:2010.02166, 2020
ECP Milestone Report Improve performance and capabilities of CEED-enabled ECP applications on Summit/Sierra WBS 2.2. 6.06, Milestone CEED-MS34
T Kolev, P Fischer, A Abdelfattah, S Ananthan, V Barra, N Beams, R Bleile, ...
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