Large-scale PDE simulations using high-order finite-element methods on unstructured meshes are an indispensable tool in science and engineering. The widely used open-source PETSc library offers an efficient representation of generic unstructured meshes within its DMPlex module. This paper details our recent implementation of parallel mesh reading and topological interpolation (computation of intermediate codimensions from a cell-vertex mesh) into DMPlex. We apply these developments to seismic wave propagation scenarios on Mars as a sample application. The principal motivation is to overcome single-node memory limits and reach mesh sizes which were impossible before. Moreover, we demonstrate that scalability of I/O and topological interpolat...
Every wave solver serving the computational study of waves meets a trade-off of two figures of merit...
DynEarthSol3D (Dynamic Earth Solver in Three Dimensions) is a flexible, open-source finite element s...
Waves are all around us–be it in the form of sound, electromagnetic ra-diation, water waves, or eart...
The use of composable abstractions allows the application of new and established algorithms to a wid...
The use of composable abstractions allows the application of new and established algorithms to a wid...
This paper presents a parallel visualization pipeline implemented at the Pittsburgh Supercomputing C...
Abstract. A major research topic in geophysics deals with the modelization of the Earth interior, an...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
Large scale ground motion simulation in realistic basins can benefit greatly from the use of paralle...
A generic solver eliminates the need to write new finite-volume codes for each type of physics. By s...
Most high-performance simulation codes are not written from scratch but begin as desktop experiments...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
The 1994 Northridge earthquake in Los Angeles, California, killed 57 people, injured over 8,700 and ...
Parallel supercomputing has traditionally focused on the inner kernel of scientific simulations: the...
Every wave solver serving the computational study of waves meets a trade-off of two figures of merit...
DynEarthSol3D (Dynamic Earth Solver in Three Dimensions) is a flexible, open-source finite element s...
Waves are all around us–be it in the form of sound, electromagnetic ra-diation, water waves, or eart...
The use of composable abstractions allows the application of new and established algorithms to a wid...
The use of composable abstractions allows the application of new and established algorithms to a wid...
This paper presents a parallel visualization pipeline implemented at the Pittsburgh Supercomputing C...
Abstract. A major research topic in geophysics deals with the modelization of the Earth interior, an...
In this work we approach the seismic wave propagation problem in two dimensions using the nite ele...
Large scale ground motion simulation in realistic basins can benefit greatly from the use of paralle...
A generic solver eliminates the need to write new finite-volume codes for each type of physics. By s...
Most high-performance simulation codes are not written from scratch but begin as desktop experiments...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
The 1994 Northridge earthquake in Los Angeles, California, killed 57 people, injured over 8,700 and ...
Parallel supercomputing has traditionally focused on the inner kernel of scientific simulations: the...
Every wave solver serving the computational study of waves meets a trade-off of two figures of merit...
DynEarthSol3D (Dynamic Earth Solver in Three Dimensions) is a flexible, open-source finite element s...
Waves are all around us–be it in the form of sound, electromagnetic ra-diation, water waves, or eart...