We present a new open-source cosmological code, called SWIFT, designed to solve the equations of hydrodynamics using a particle-based approach (Smooth Particle Hydrodynamics) on hybrid shared / distributed-memory architectures. SWIFT was designed from the bottom up to provide excellent strong scaling on both commodity clusters (Tier-2 systems) and Top100-supercomputers (Tier-0 systems), without relying on architecture-specific features or specialized accelerator hardware. This performance is due to three main computational approaches: • Task-based parallelism for shared-memory parallelism, which provides fine-grained load balancing and thus strong scaling on large numbers of cores. • Graph-based domain decomposition, which uses the ta...
Computers will soon reach exascale performance, i.e. the capability to perform more than 10^18 FLOPS...
We study the performance behaviour of a seismic simulation using the ExaHyPE engine with a specific ...
Scientific and data-intensive applications often require exploratory analysis on large datasets, whi...
We present a highly scalable demonstration of a portable asynchronous many-task programming model an...
We perform simulations of giant impacts onto the young Uranus using smoothed particle hydrodynamics ...
Current supercomputer development trends present severe challenges for scientific codebases. Moore’s...
Abstract—Many scientific applications are conceptually built up from independent component tasks as ...
The Galaxy platform is a web-based science portal for sci-entific computing supporting the life scie...
Existing cosmological simulation methods lack a high degree of parallelism due to the long-range nat...
Abstract. Both medical research and clinical practice are starting to involve large quantities of da...
This is a preprint of a paper in the proceedings of the XSEDE12 conference, held July 16-19, 2012 in...
Context. Existing cosmological simulation methods lack a high degree of parallelism due to the long-...
The research presented in this thesis investigates parallel implementations of the Fast Sweeping Met...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
The paper presents a new hydrodynamical code, OMPEGAS, for the 3D simulation of astrophysical flows ...
Computers will soon reach exascale performance, i.e. the capability to perform more than 10^18 FLOPS...
We study the performance behaviour of a seismic simulation using the ExaHyPE engine with a specific ...
Scientific and data-intensive applications often require exploratory analysis on large datasets, whi...
We present a highly scalable demonstration of a portable asynchronous many-task programming model an...
We perform simulations of giant impacts onto the young Uranus using smoothed particle hydrodynamics ...
Current supercomputer development trends present severe challenges for scientific codebases. Moore’s...
Abstract—Many scientific applications are conceptually built up from independent component tasks as ...
The Galaxy platform is a web-based science portal for sci-entific computing supporting the life scie...
Existing cosmological simulation methods lack a high degree of parallelism due to the long-range nat...
Abstract. Both medical research and clinical practice are starting to involve large quantities of da...
This is a preprint of a paper in the proceedings of the XSEDE12 conference, held July 16-19, 2012 in...
Context. Existing cosmological simulation methods lack a high degree of parallelism due to the long-...
The research presented in this thesis investigates parallel implementations of the Fast Sweeping Met...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
The paper presents a new hydrodynamical code, OMPEGAS, for the 3D simulation of astrophysical flows ...
Computers will soon reach exascale performance, i.e. the capability to perform more than 10^18 FLOPS...
We study the performance behaviour of a seismic simulation using the ExaHyPE engine with a specific ...
Scientific and data-intensive applications often require exploratory analysis on large datasets, whi...