Sciweavers

SC
2004
ACM

Ultrascalable Implicit Finite Element Analyses in Solid Mechanics with over a Half a Billion Degrees of Freedom

14 years 5 months ago
Ultrascalable Implicit Finite Element Analyses in Solid Mechanics with over a Half a Billion Degrees of Freedom
The solution of elliptic diffusion operators is the computational bottleneck in many simulations in a wide range of engineering and scientific disciplines. We present a truly scalable–ultrascalable–algebraic multigrid (AMG) linear solver for the diffusion operator in unstructured elasticity problems. Scalability is demonstrated with speedup studies of a non-linear micro-finite element analyses of a human vertebral body with over a half of a billion degrees of freedom on up to 4088 processors on the ACSI White machine. This work is significant because in the domain of unstructured implicit finite element analysis in solid mechanics with complex geometry, this is the first demonstration of a highly parallel and efficient application of a mathematically optimal linear solution method on a common large scale computing platform—the IBM SP Power3.
Mark F. Adams, Harun H. Bayraktar, Tony M. Keaveny
Added 30 Jun 2010
Updated 30 Jun 2010
Type Conference
Year 2004
Where SC
Authors Mark F. Adams, Harun H. Bayraktar, Tony M. Keaveny, Panayiotis Papadopoulos
Comments (0)