The increasing complexity of hardware and software environments in high-performance computing poses big challenges on the development of sustainable and hardware-efcient numerical software. This paper addresses these challenges in the context of sparse solvers. Existing solutions typically target sustainability, flexibility or performance, but rarely all of them. Our new library PHIST provides implementations of solvers for sparse linear systems and eigenvalue problems. It is a productivity platform for performance-aware developers of algorithms and application software with abstractions that do not obscure the view on hardware-software interaction. The PHIST software architecture and the PHIST development process were designed to ove...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
While many of the architectural details of future exascale-class high performance computer systems ...
This paper presents a new software framework for solving large and sparse linear systems on current ...
The increasing complexity of hardware and software environments in high-performance computing poses ...
As modern supercomputers approach the Exascale, many numerical libraries face scalability issues due...
<p>Presented at SIAM CSE17 Minisymposium: Software Productivity and Sustainability for CSE and Data ...
The complexity of the latest HPC architectures increasingly limits the productivity of researchers i...
Mathematicians and domain scientists who want to implement their algorithms on a supercomputer typic...
The ESSEX project is funded by the German DFG priority programme 1648 Software for Exascale Computin...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
International audienceThe ever growing complexity and scale of parallel architectures imposes to rew...
Sparse linear iterative solvers are essential for many large-scale simulations. Much of the runtime ...
AbstractWe examine the computational efficiency of linear algebra components in iterative solvers fo...
Numerous challenges have to be mastered as applications in scientific computing are being developed ...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
While many of the architectural details of future exascale-class high performance computer systems ...
This paper presents a new software framework for solving large and sparse linear systems on current ...
The increasing complexity of hardware and software environments in high-performance computing poses ...
As modern supercomputers approach the Exascale, many numerical libraries face scalability issues due...
<p>Presented at SIAM CSE17 Minisymposium: Software Productivity and Sustainability for CSE and Data ...
The complexity of the latest HPC architectures increasingly limits the productivity of researchers i...
Mathematicians and domain scientists who want to implement their algorithms on a supercomputer typic...
The ESSEX project is funded by the German DFG priority programme 1648 Software for Exascale Computin...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
International audienceThe ever growing complexity and scale of parallel architectures imposes to rew...
Sparse linear iterative solvers are essential for many large-scale simulations. Much of the runtime ...
AbstractWe examine the computational efficiency of linear algebra components in iterative solvers fo...
Numerous challenges have to be mastered as applications in scientific computing are being developed ...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
While many of the architectural details of future exascale-class high performance computer systems ...
This paper presents a new software framework for solving large and sparse linear systems on current ...