2006 Workshop on Challenges and Opportunities at the Interfaces of Scientific Computing and Computational Geodynamics
- Brad Aagaard: Using multi-cycle earthquake simulations to understand crustal dynamics
- Wolfgang Bangerth: Adaptive Mesh Refinement
- Roscoe A. Bartlett: Trilinos Overview
- Heiner Igel: Wave propagation in highly complex models: grid generation – local time stepping - parallelization
- Robert Falgout: hypre - High Performance Preconditioners
- Carl Gable: Mesh Generation for Geological Applications: Why it is Different Than Planes, Trains and Automobiles
- Moritz Heimpel: Modeling the geodynamo: Successes and challenges
- Steve Owen: CUBIT Geometry and Mesh Generation Toolkit
- X. Sherry Li: Improving Scalability of Sparse Direct Linear Solvers
- Scott King: Grid refinement and parallel computing for mantle convection and thermochemical convection
- Abani Patra: Modeling Geophysical Mass Flows - Mesh(free), Model, and Parameter Adaptivity
- Mousumi Roy: Scientific and computational challenges in simulating fluid-rock interaction and its role in the long-term tectonics of continental lithosphere
- John Shadid: An Overview of the Application of Newton-Krylov based Solution Methods for Nonlinear Multiple-time-scale PDE Systems
- Claudio Silva: Scalable Techniques for Scientific Visualization
- Mark Simons: Going Beyond an Elastic Halfspace - CIG Short-Term Crustal Dynamics
- Barry Smith: An Architecture for Composing Solvers - Case study of PETSc
- Marc Spiegelman: Plumbing the Depths: Computational Challenges for Magma Dynamics in Earth Sciences
- Jeroen Tromp: Spectral-Element and Adjoint Methods in Seismology
- Tiankai Tu: Besides Teraflops: Getting More from Big Iron