In hardware-aware high performance computing, block-asynchronous iteration and mixed precision iterative refinement are two techniques that may be used to leverage the computing power of SIMD accelerators like GPUs in the iterative solution of linear equation systems. although they use a very different approach for this purpose, they share the basic idea of compensating the convergence properties of an inferior numerical algorithm by a more efficient usage of the provided computing power. In this paper, we analyze the potential of combining both techniques. Therefore, we derive a mixed precision iterative refinement algorithm using a block-asynchronous iteration as an error correction solver, and compare its performance with a pure implemen...
Nous étudions dans cette thèse une méthode hybride de résolution des systèmes linéaires GMRES/LS-Arn...
Low-precision floating-point arithmetic is a powerful tool for accelerating scientific computing app...
ixed precision is an approximate computing technique that can be used to trade-off computation accur...
Abstract. In hardware-aware high performance computing, block- asynchronous iteration and mixed prec...
This paper explores the need for asynchronous iteration algorithms as smoothers in multigrid methods...
In this paper, we analyze the potential of asynchronous relaxation methods on Graphics Processing Un...
AbstractThis paper explores the need for asynchronous iteration algorithms as smoothers in multigrid...
Abstract—We have previously suggested mixed precision iterative solvers specifically tailored to the...
summary:With the emergence of mixed precision hardware, mixed precision GMRES-based iterative refine...
We present several algorithms to compute the solution of a linear system of equations on a graphics ...
AbstractWe investigate novel iterative refinement methods for solving eigenvalue problems which are ...
International audienceBy using a combination of 32-bit and 64-bit floating point arithmetic, the per...
In this survey paper, we compare native double precision solvers with emulated- and mixed- precision...
We propose a general algorithm for solving a $n\times n$ nonsingular linear system $Ax = b$ based on...
By using a combination of 32-bit and 64-bit floating point arithmetic, the per-formance of many dens...
Nous étudions dans cette thèse une méthode hybride de résolution des systèmes linéaires GMRES/LS-Arn...
Low-precision floating-point arithmetic is a powerful tool for accelerating scientific computing app...
ixed precision is an approximate computing technique that can be used to trade-off computation accur...
Abstract. In hardware-aware high performance computing, block- asynchronous iteration and mixed prec...
This paper explores the need for asynchronous iteration algorithms as smoothers in multigrid methods...
In this paper, we analyze the potential of asynchronous relaxation methods on Graphics Processing Un...
AbstractThis paper explores the need for asynchronous iteration algorithms as smoothers in multigrid...
Abstract—We have previously suggested mixed precision iterative solvers specifically tailored to the...
summary:With the emergence of mixed precision hardware, mixed precision GMRES-based iterative refine...
We present several algorithms to compute the solution of a linear system of equations on a graphics ...
AbstractWe investigate novel iterative refinement methods for solving eigenvalue problems which are ...
International audienceBy using a combination of 32-bit and 64-bit floating point arithmetic, the per...
In this survey paper, we compare native double precision solvers with emulated- and mixed- precision...
We propose a general algorithm for solving a $n\times n$ nonsingular linear system $Ax = b$ based on...
By using a combination of 32-bit and 64-bit floating point arithmetic, the per-formance of many dens...
Nous étudions dans cette thèse une méthode hybride de résolution des systèmes linéaires GMRES/LS-Arn...
Low-precision floating-point arithmetic is a powerful tool for accelerating scientific computing app...
ixed precision is an approximate computing technique that can be used to trade-off computation accur...