Computational physicists at Sandia National Laboratories have moved the Eulerian CTH code, and the arbitrary-Lagrangian-Eulerian ALEGRA code to distributed memory parallel computers. CTH is a three-dimensional solid mechanics code used for large-deformation, shock wave analysis. ALEGRA is a three-dimensional arbitrary Lagrangian-Eulerian solid-mechanics code used for coupled large-deformation, shock and structural mechanics problems. This paper discusses our experiences moving the codes to parallel computers, the algorithms we used and our experiences running the codes
This paper reports progress on implementing a new capability of adaptive mesh refinement into the Eu...
While solid mechanics codes are now conventional tools both in industry and research, the increasing...
A message-passing version of the PAGOSA shock-wave physics code has been developed at Sandia Nationa...
ALEGRA is a multi-material, arbitrary-Lagrangian-Eulerian (ALE) code for solid dynamics being develo...
CTH is a family of codes developed at Sandia National Laboratories for use in modeling complex multi...
While solid mechanics codes are now proven tools both in the industry and research sectors, the incr...
With recent advances in parallel supercomputers and network-connected workstations, the solution to ...
We describe a general strategy we have found effective for parallelizing solid mechanics simula- tio...
Hypervelocity impact studies are important for debris shield and armor/anti-armor research and devel...
Numerical simulations in the field of continuum mechanics require considerable computa-tional resour...
The difficulties encountered in implementing large scale CM codes on multiprocessor systems are now ...
summary:In the last decade the dramatic onset of multicore and multi-processor systems in combinatio...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
This article presents the analysis and solution strategies employed in ParCYCLIC, a parallel nonline...
While solid mechanics codes are now conventional tools both in industry and research, the increasing...
This paper reports progress on implementing a new capability of adaptive mesh refinement into the Eu...
While solid mechanics codes are now conventional tools both in industry and research, the increasing...
A message-passing version of the PAGOSA shock-wave physics code has been developed at Sandia Nationa...
ALEGRA is a multi-material, arbitrary-Lagrangian-Eulerian (ALE) code for solid dynamics being develo...
CTH is a family of codes developed at Sandia National Laboratories for use in modeling complex multi...
While solid mechanics codes are now proven tools both in the industry and research sectors, the incr...
With recent advances in parallel supercomputers and network-connected workstations, the solution to ...
We describe a general strategy we have found effective for parallelizing solid mechanics simula- tio...
Hypervelocity impact studies are important for debris shield and armor/anti-armor research and devel...
Numerical simulations in the field of continuum mechanics require considerable computa-tional resour...
The difficulties encountered in implementing large scale CM codes on multiprocessor systems are now ...
summary:In the last decade the dramatic onset of multicore and multi-processor systems in combinatio...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
This article presents the analysis and solution strategies employed in ParCYCLIC, a parallel nonline...
While solid mechanics codes are now conventional tools both in industry and research, the increasing...
This paper reports progress on implementing a new capability of adaptive mesh refinement into the Eu...
While solid mechanics codes are now conventional tools both in industry and research, the increasing...
A message-passing version of the PAGOSA shock-wave physics code has been developed at Sandia Nationa...