CTH is a family of codes developed at Sandia National Laboratories for use in modeling complex multi-dimensional, multi-material problems that are characterized by large deformations and/or strong shocks. A two-step, second-order accurate Eulerian solution algorithm is used to solve the mass, momentum, and energy conservation equations. CTH has historically been run on systems where the data are directly accessible to the cpu, such as workstations and vector supercomputers. Multiple cpus can be used if all data are accessible to all cpus. This is accomplished by placing compiler directives or subroutine calls within the source code. The CTH team has implemented this scheme for Cray shared memory machines under the Unicos operating system. T...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
We developed a data parallel code written in High Performance Fortran for simulating magnetized flui...
The Hewlett-Packard X- and V-Class ccNUMA systems appear well suited to exploiting coarse and fine-g...
Computational physicists at Sandia National Laboratories have moved the Eulerian CTH code, and the a...
This white-paper reports on our efforts to enable an SPH-based Fortran code on the Intel Xeon Phi. A...
Hypervelocity impact studies are important for debris shield and armor/anti-armor research and devel...
. We describe the results of a preliminary port of a large molecular dynamics (MD) code, gromos [15]...
ABSTRACT: CTH is a widely used shock hydrodynamics code developed at Sandia. We will investigate sca...
AbstractThe computational performance of a smoothed particle hydrodynamics (SPH) simulation is inves...
This white-paper reports on our efforts to enable an SPH-based Fortran code on the Intel Xeon Phi. A...
Current Connection Machine (CM) Fortran codes developed for the CM-2 and the CM-5 represent an impor...
Large scale parallel simulations are fundamental tools for engineers and scientists. Consequently, i...
A message-passing version of the PAGOSA shock-wave physics code has been developed at Sandia Nationa...
This work describes experiences porting the UTCHEM chemical flood simulator from a serial environmen...
With the advent of Distributed Memory Machines (DMMs) numerous work have been undertaken to ease the...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
We developed a data parallel code written in High Performance Fortran for simulating magnetized flui...
The Hewlett-Packard X- and V-Class ccNUMA systems appear well suited to exploiting coarse and fine-g...
Computational physicists at Sandia National Laboratories have moved the Eulerian CTH code, and the a...
This white-paper reports on our efforts to enable an SPH-based Fortran code on the Intel Xeon Phi. A...
Hypervelocity impact studies are important for debris shield and armor/anti-armor research and devel...
. We describe the results of a preliminary port of a large molecular dynamics (MD) code, gromos [15]...
ABSTRACT: CTH is a widely used shock hydrodynamics code developed at Sandia. We will investigate sca...
AbstractThe computational performance of a smoothed particle hydrodynamics (SPH) simulation is inves...
This white-paper reports on our efforts to enable an SPH-based Fortran code on the Intel Xeon Phi. A...
Current Connection Machine (CM) Fortran codes developed for the CM-2 and the CM-5 represent an impor...
Large scale parallel simulations are fundamental tools for engineers and scientists. Consequently, i...
A message-passing version of the PAGOSA shock-wave physics code has been developed at Sandia Nationa...
This work describes experiences porting the UTCHEM chemical flood simulator from a serial environmen...
With the advent of Distributed Memory Machines (DMMs) numerous work have been undertaken to ease the...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
We developed a data parallel code written in High Performance Fortran for simulating magnetized flui...
The Hewlett-Packard X- and V-Class ccNUMA systems appear well suited to exploiting coarse and fine-g...