As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solvers that couple vast numbers of degrees of freedom, must span a widening gap between ambitious applications and austere architectures to support them. We present fifteen universals for researchers in scalable solvers: imperatives from computer architecture that scalable solvers must respect, strategies towards achieving them that are currently well established, and additional strategies currently being developed for an effective and efficient exascale software ecosystem. We consider recent generalizations of what it means to “solve” a computational problem, which suggest that we have often been “oversolving” them at the smaller scales of the ...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
Portability, an oftentimes sought-after goal in scientific applications, confers a number of possibl...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
In this talk, we will look at the current state of high performance computing and look at the next s...
David Keyes, Dean of Mathematical and Computer Sciences and Engineering and a Professor of Applied M...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
Algebraic multigrid (AMG) is a popular iterative solver and preconditioner for large sparse linear s...
We present a novel distributed memory Tridiagonal solver library, targeting large-scale systems base...
Factorization based preconditioning algorithms, most notably incomplete LU (ILU) factorization, have...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
Portability, an oftentimes sought-after goal in scientific applications, confers a number of possibl...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
In this talk, we will look at the current state of high performance computing and look at the next s...
David Keyes, Dean of Mathematical and Computer Sciences and Engineering and a Professor of Applied M...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
Algebraic multigrid (AMG) is a popular iterative solver and preconditioner for large sparse linear s...
We present a novel distributed memory Tridiagonal solver library, targeting large-scale systems base...
Factorization based preconditioning algorithms, most notably incomplete LU (ILU) factorization, have...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
Portability, an oftentimes sought-after goal in scientific applications, confers a number of possibl...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...