On Sunday, June 2, there will be a reception from 17.00-19.00 at the conference site. There will also be an opportunity to register at that time.
Download the book of abstracte here in pdf format
| NAHOMCon 2019 Schedule | ||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Sunday | Monday | Monday | Monday | Tuesday | Tuesday | Tuesday | Wednesday | Wednesday | Wednesday | |
| Welcome (8-8:30am) | ||||||||||
| Morning Session | ||||||||||
| Plenary (8:30-9:30am) | Templo Mayor Room | Templo Mayor Room | Templo Mayor Room | |||||||
| Session Chair: Wai Sun Don | Chi-Wang Shu | Optimal energy- conserving discontinuous Galerkin methods for wave equations | Session Chair: Anders Petersson | Tzanio Kolev | Scalable High- Order Finite Elements for Compressible Hydrodynamics | Session Chair: Cathy Mavriplis | Adrianna Gillman | An efficient and high order accurate direct solution technique for variable coefficient elliptic partial differential equations | ||
| Coffee Break (9:30-10am) | ||||||||||
| Morning Parallel Sessions (10am-12pm) | Aztlan Room | Templo Mayor Room | Tehuanco Room | Aztlan Room | Templo Mayor Room | Tehuanco Room | Aztlan Room | Templo Mayor Room | Tehuanco Room | |
| Session Chair is the 1st speaker | Jesse Chan, Modal formulations of entropy stable discontinuous Galerkin methods | Jan Nordström, Stable and Accurate Filtering Procedures | Manuel Mefia, A Particle Tracking Methodology for Spectral High Order Element Methods in Nektar++ | Catherine Mavriplis, A Parallel High Order hp- Adaptive Discontinuous Galerkin Solver for Incompressible Flow | Jean-Luc Guermond, Invariant domain preserving approximation of hyperbolic systems: beyond second- order | Ketan Mittal, Overlapping Schwarz Based Spectral Element Method for Incompressible Flow in Complex Domains | Will Pazner, Efficient Matrix- Free Iterative Solvers for Very High-Order Finite Element Discretizations | Sigal Gottlieb, Designing Time Filters Using a General Linear Method Approach | David C. Seal, High order multiderivative time integrators | |
| Tamas Horvath, Energy stable higher order space- time hybridizable and embedded discontinuous Galerkin methods for incompressible flows | Jialin Lou, Entropy Stable Spectral Collocation Schemes for the 3- D Navier- StokesEquations on Dynamic Unstructured Grids | Mingchang Ding, Efficient and highly accurate semi- Lagrangian discontinuous Galerkin method for convection- diffusion problems | Reza Abed, Adaptive Space- Time Discontinuous Galerkin Methods for Solutions of Steady and Transient Partial Differential Equations | Luke D’Aquila, High-Order Shock Fitting Using a Discontinuous Galerkin Method | Philip Roe ,Designing CFD Algorithms for Bandwidth | Andrés M. Rueda- Ramírez, A Time- Implicit Static Condensation Scheme for High- Order Discontinuous Galerkin Spectral Element Methods with Gauss-Lobatto Points | Dong Zhou, Diagonally-implicit Runge-Kutta Schemes Devoid of Order Reduction | Philipp Öffner, Error Boundedness of Discontinuous Galerkin Methods with VariableCoefficients | ||
| Ayaboe Edoh, Provably Conservative and Energy-Stable Finite Difference Dissipation Operators with Spectral Tunability | Longfei Gao, Combining finite element and finite difference methods for isotropic elastic wave simulations in an energy- conserving manner | Som Dutta, Efficient Lagrangian Particle Tracking in High-Order CFD in Complex Geometries | Andrés Mauricio Rueda-Ramírez, An Unsteady and Anisotropic p- Adaptation Method Based on Truncation Error Estimations for High-Order Discontinuous Galerkin Schemes | Giacomo Castiglioni, Shock- Wave Boundary Layer Interactions Simulations with a Implicit Discontinuous Spectral/hp Element Method | Pratik Das, A numerical framework for high- fidelity simulations of vaporizing aluminum droplets in shocked flows | Shuai Jiang, Uniform Substructuring Preconditioners for High Order FEM on Triangles and The Influence of Nodal Basis Functions | Zachary J. Grant, Implicit and Explicit Parallel Across Method Error Inhibiting Schemes | Fortino Garcia, WaveHoltz: Iterative Solution of the Helmholtz Equation via the Wave Equation | ||
| Lu Zhang, An Energy-Based Discontinuous Galerkin Method with Galerkin Difference Basis for Second-Order Wave Equations | Wai Sun Don, Entropy Stable Discontinuous Galerkin Method for Shallow Water Equation | Siddhartha Bishnu, Solving a Reduced Ocean Model Using High Order Spectral Element and Finite Volume Methods | David Wells, Using p-Refinement to Increase Boundary Derivative Convergence Rates | Theodoros Diamantopoulos, Multi-level static condensation for the simulation of Internal Solitary Waves over an actual bathymetry | Satyvir Singh, High-Order Modal Discontinuous Galerkin Method with Applications for Quantum Boltzmann Transport Equation | Mingyu Hu, Taming the CFL number for Discontinuous Galerkin Methods by Local Exponentiation: Numerical Examples | Jay M. Appleton, High-Order Continuous Triangular Finite Element Explicit Time Stepping via a Twisted Mass- Matrix Inversion Scheme | Hector Ceniceros, Order adaptive methods for polymer self- consistent field theory | ||
| Juan Manzanero, A free-energy stable nodal discontinuous Galerkin approximation with summation-by- parts property for the Cahn-Hilliard equation | Svetlana Tokareva, A High Order Multidimensional Residual Distribution Scheme for Lagrangian Hydrodynamics | Amneet Pal Singh Bhalla, A robust and efficient wave- structure interaction solver for high- density ratio multiphase flows | Matthew J. Zahr, An optimization- based discontinuous Galerkin approach for high-order accurate shock tracking | Youngjoon Hong, A High-Order Perturbation of Surfaces Method for Vector Electromagnetic Scattering by Doubly Layered Periodic Crossed Gratings | Zheng Chen , Boundary condition strategies for collision-based hybrid methods for linear kinetic models | Pierson Guthrey, The regionally Implicit Discontinous Galerkin method are nonlinear hyperbolic conservation laws | Chunjae Park , Spurious pressure in Scott-Vogelius elements | |||
| Lunch (12-1:30pm) | ||||||||||
| Afternoon Session | ||||||||||
| Plenary (1:30-2:30pm) | Templo Mayor Room | Templo Mayor Room | Templo Mayor Room | |||||||
| Session Chair: Paul Fischer | Misun Min | Exascale Applications of High-Order Methods | Session Chair: Tom Hagstrom | Daniel Appelö | What’s new with the wave equation? | Session Chair: David Kopriva | Mark H. Carpenter | Nonlinear Stability and the Discrete Equations of Fluid Mechanics | ||
| Coffee Break (2:30-3pm) | ||||||||||
| Afternoon Parallel Sessions (3-5pm) | Aztlan Room | Templo Mayor Room | Tehuanco Room | Aztlan Room | Templo Mayor Room | Aztlan Room | Templo Mayor Room | Tehuanco Room | ||
| Session Chair is the 1st speaker | Jerry Watkins, Enabling performance portability for high- order entropy stable compressible flow simulations | Tim Warburton, libParanumal: portable highly optimized high- order finite element implementations for GPU computing | Andreas Klöckner, Fast Algorithms for the Evaluation of Layer and Volume Potentials” | N. Anders Petersson, Full waveform seismic inversion with SW4 | Rodrigo B. Platte, Frame Approximations with Square Matrices | Alexander Kurganov, Adaptive Moving Mesh Central-Upwind Schemes | Ossian O’Reilly, A high order finite difference method for the elastic wave equation on curvilinear staggered grids | Hongsong Feng, FFT-based high order central difference schemes for the three- dimensional Poisson equation with various types of boundary conditions | ||
| David Flad, A highly efficient large eddy simulation method for DGSEM using non-linearly optimized relaxation filters | Anthony P. Austin, A GPU-Accelerated High-Order Finite Element Solver for the Stokes Equations | Andrew Giuliani, Adaptive mesh refinement on graphics processing units for applications in gas dynamics | Kaihang Guo, Weight-adjusted Bernstein-Bezier DG methods for wave propagation in heterogeneous media | Thomas Hagstrom, Direct high-order propagation algorithms for hyperbolic problems | Jose E. Castillo, High Order Mimetic Methods on Curvilinear Grids | A. Veilleux, Towards a multi- element-shape extension for the Spectral Difference method | Jianxian Qiu, A hybrid high order Hermite WENO scheme for hyperbolic conservation laws | |||
| Sunday | Monday | Monday | Monday | Tuesday | Tuesday | Tuesday | Wednesday | Wednesday | Wednesday | |
| Alina Chertock, A simple Eulerian finite-volume method for compressible fluids in domains with moving boundaries | Keaton J. Burns, The Automatic Sparse Spectral Discretization of Tensorial PDEs | Kristopher Rowe, A fast high-order solver for high Reynolds number stratified flows on massively multi- cored architectures | João A. Isler, Dispersion analysis of different basis functions applied to high-order discontinuous Galerkin method for the acoustic wave equation | Tony Liu, Near- optimal points for constrained approximation and solution of PDEs on complex geometries | Genesis Islas, Accuracy and Stability of Windowed Fourier Methods for Computations on the Sphere | Peng Li , A numerical framework of high order well-balanced finite difference schemes based on the weighted compact nonlinear scheme and alternative WENO scheme for the shallow water equations | Tingfu Ma, High- order blended compact difference schemes for the three dimensional elliptic partial differential equation with mixed derivatives and variable coefficients | |||
| Chunlei Liang, A Parallel High-order Solver for Linear Elasticity Problems Using A Weak Galerkin Finite Element Method on Unstructured Quadrilateral Grids | Shinhoo Kang, IMEX HDG-DG: A coupled implicit hybridized discontinuous Galerkin and explicit discontinuous Galerkin approach for shallow water systems | Otilio Rojas, Alternating direction implicit modeling of wave motion using compact and mimetic finite differences | A. F. G. Olender, Computational and convergence analysis of different high-order discontinuous Galerkin implementations for the acoustic wave equation | Thomas G. Anderson, High-Order Dispersionless Spatio-Temporally Parallel “Fast- Hybrid” Wave Equation Solver at $\mathcal{O}(1)$ Sampling Cost | Hareshram Natarajan, High- order explicit stochastic semi- Lagrangian spectral method to solve transport equations | Angel Armando Boada Velazco, High Order Mimetic Finite Difference Modeling of Anisotropic Flow | Bjoern F. Klose, Assessing standard and kinetic energy conserving discontinuous Galerkin formulations for marginally resolved two dimensional Navier-Stokes flows | |||
| Matteo Franciolini, Efficient High-Order Discontinuous Galerkin Solution Strategies for Implicit Unsteady Flow Simulations | Francois Guibault, Efficient high-order discrete geometric model from CAD | Bjorn Sjogreen, Seismic Simulations with SW4 | Majid Allayari, Pseudo-spectral simulation of shock turbulence interaction using observable Navier- Stokes equations | Xiaoyu Wei, A Fast High-Order Poisson Solver for 2/3D Complex Geometries via an Integral Equation Method | Sheng Chen, Boundary condition strategies for collision-based hybrid methods for linear kinetic models | |||||
| Evening Festivities | Reception and Registration (5pm-7pm) in Montezuma Hall | Trolley ride from SDSU to downtown (5pm-7pm) | ||||||||
| Dinner Cruise (7pm-11pm) |