Abstract. This paper deals with the in uence of hardware aspects of modern computer architectures to the design of software for numerical simulations. We present performance tests for various tasks arising in FEM computations and show under which circumstances performance loss can occur. Further we give key ideas for our new software package FEAST, which is especially designed for high performance computations.
A finite element code is developed in which all computational expensive steps are performed on a gra...
This work is aimed to exploit the computational capabilities of nowadays workstations by building al...
We have studied how the solution of partial differential equations by means of finite element method...
This paper deals with the basic principles of the new FEM software package FEAST. Based on an initia...
One current trend in software development for PDEs, and here especially for FE approaches, clearly g...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
AbstractWe examine the computational efficiency of linear algebra components in iterative solvers fo...
The continued development of improved algorithms and architecture for numerical simulations is at th...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
FEAST (Finite Element Analysis & Solutions Tools) is a Finite Element based solver toolkit for t...
In this survey paper, we compare native double precision solvers with emulated- and mixed- precision...
Processor technology is dramatically advancing and promises enormous improvements in processing data...
The Explicit Finite Element Method is a powerful tool in nonlinear dynamic finite element analysis. ...
The purpose of this paper is to address new tracks for the future generation ofcomputational applica...
The life-cycle of a partial differential equation (PDE) solver is often characterized by three devel...
A finite element code is developed in which all computational expensive steps are performed on a gra...
This work is aimed to exploit the computational capabilities of nowadays workstations by building al...
We have studied how the solution of partial differential equations by means of finite element method...
This paper deals with the basic principles of the new FEM software package FEAST. Based on an initia...
One current trend in software development for PDEs, and here especially for FE approaches, clearly g...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
AbstractWe examine the computational efficiency of linear algebra components in iterative solvers fo...
The continued development of improved algorithms and architecture for numerical simulations is at th...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
FEAST (Finite Element Analysis & Solutions Tools) is a Finite Element based solver toolkit for t...
In this survey paper, we compare native double precision solvers with emulated- and mixed- precision...
Processor technology is dramatically advancing and promises enormous improvements in processing data...
The Explicit Finite Element Method is a powerful tool in nonlinear dynamic finite element analysis. ...
The purpose of this paper is to address new tracks for the future generation ofcomputational applica...
The life-cycle of a partial differential equation (PDE) solver is often characterized by three devel...
A finite element code is developed in which all computational expensive steps are performed on a gra...
This work is aimed to exploit the computational capabilities of nowadays workstations by building al...
We have studied how the solution of partial differential equations by means of finite element method...