The ESSEX project is funded by the German DFG priority programme 1648 Software for Exascale Computing (SPPEXA). In 2016 it has entered its second funding phase, ESSEX-II. ESSEX investigated programming concepts and numerical algorithms for scalable, efficient and robust iterative sparse matrix applications on exascale systems. Starting with successful blueprints and prototype solutions identified in ESSEX-I, the second phase project ESSEX-II developed a collection of broadly usable and scalable sparse eigenvalue solvers with high hardware efficiency for the computer architectures to come. Project activities were organized along the traditional software layers of low-level parallel building blocks (kernels), algorithm implementations, and...
TOPS is providing high-performance, scalable sparse direct solvers, which have had significant impac...
Compared to multi-core processors, GPUs typically offer a higher memory bandwidth, which makes them...
Multiphysics simulations are at the core of modern Computer Aided Engineering (CAE) allowing the ana...
The ESSEX project is funded by the German DFG priority programme 1648 "Software for Exascale Computi...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
As modern supercomputers approach the Exascale, many numerical libraries face scalability issues due...
In the German Research Foundation project ESSEX (Equipping Sparse Solvers for Exascale), we develop ...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
<p>Presented at SIAM CSE17 Minisymposium: Software Productivity and Sustainability for CSE and Data ...
Numerous challenges have to be mastered as applications in scientific computing are being developed ...
The ESSEX project is an ongoing effort to provide exascale-enabled sparse eigensolvers, especially f...
The increasing complexity of hardware and software environments in high-performance computing poses ...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
TOPS is providing high-performance, scalable sparse direct solvers, which have had significant impac...
Compared to multi-core processors, GPUs typically offer a higher memory bandwidth, which makes them...
Multiphysics simulations are at the core of modern Computer Aided Engineering (CAE) allowing the ana...
The ESSEX project is funded by the German DFG priority programme 1648 "Software for Exascale Computi...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
As modern supercomputers approach the Exascale, many numerical libraries face scalability issues due...
In the German Research Foundation project ESSEX (Equipping Sparse Solvers for Exascale), we develop ...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
<p>Presented at SIAM CSE17 Minisymposium: Software Productivity and Sustainability for CSE and Data ...
Numerous challenges have to be mastered as applications in scientific computing are being developed ...
The ESSEX project is an ongoing effort to provide exascale-enabled sparse eigensolvers, especially f...
The increasing complexity of hardware and software environments in high-performance computing poses ...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
In the German Research Foundation (DFG) project ESSEX (Equipping Sparse Solvers for Exascale), we de...
TOPS is providing high-performance, scalable sparse direct solvers, which have had significant impac...
Compared to multi-core processors, GPUs typically offer a higher memory bandwidth, which makes them...
Multiphysics simulations are at the core of modern Computer Aided Engineering (CAE) allowing the ana...