We present new versions of the previously published C and CUDA programs for solving the dipolar Gross–Pitaevskii equation in one, two, and three spatial dimensions, which calculate stationary and non-stationary solutions by propagation in imaginary or real time. Presented programs are improved and parallelized versions of previous programs, divided into three packages according to the type of parallelization. First package contains improved and threaded version of sequential C programs using OpenMP. Second package additionally parallelizes three-dimensional variants of the OpenMP programs using MPI, allowing them to be run on distributed-memory systems. Finally, previous three-dimensional CUDA-parallelized programs are further parallelized ...
The quantized vortices in superfluids are modeled by the Gross-Pitaevskii equation whose numerical t...
Through the work proposed in this document we expect to advance the forefront of large scale computa...
To determine global behaviour of a dynamical system, one must find invariant sets (attractors) and t...
We present new versions of the previously published C and CUDA programs for solving the dipolar Gros...
We present hybrid OpenMP/MPI (Open Multi-Processing/Message Passing Interface) parallelized versions...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
We present Open Multi-Processing (OpenMP) version of Fortran 90 programs for solving the Gross–Pitae...
We present C programming language versions of earlier published Fortran programs (Muruganandam and A...
Ova doktorska teza se bavi proučavanjem i razvojem paralelnih algoritama za transponovanje distribui...
This article presents the development of a hybrid parallel algorithm for solving the Dirichlet probl...
Modern high performance computers offer hundreds of thousands of processors that can be leveraged, i...
An implementation with the CUDA technology in a single and in several graphics processing units (GPU...
A parallel algorithm for numerical solution of a generalized unsteady 3-dimensional advection-diffus...
Solving the electric activity of the heart possess a big challenge, not only because of the structur...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
The quantized vortices in superfluids are modeled by the Gross-Pitaevskii equation whose numerical t...
Through the work proposed in this document we expect to advance the forefront of large scale computa...
To determine global behaviour of a dynamical system, one must find invariant sets (attractors) and t...
We present new versions of the previously published C and CUDA programs for solving the dipolar Gros...
We present hybrid OpenMP/MPI (Open Multi-Processing/Message Passing Interface) parallelized versions...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
We present Open Multi-Processing (OpenMP) version of Fortran 90 programs for solving the Gross–Pitae...
We present C programming language versions of earlier published Fortran programs (Muruganandam and A...
Ova doktorska teza se bavi proučavanjem i razvojem paralelnih algoritama za transponovanje distribui...
This article presents the development of a hybrid parallel algorithm for solving the Dirichlet probl...
Modern high performance computers offer hundreds of thousands of processors that can be leveraged, i...
An implementation with the CUDA technology in a single and in several graphics processing units (GPU...
A parallel algorithm for numerical solution of a generalized unsteady 3-dimensional advection-diffus...
Solving the electric activity of the heart possess a big challenge, not only because of the structur...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
The quantized vortices in superfluids are modeled by the Gross-Pitaevskii equation whose numerical t...
Through the work proposed in this document we expect to advance the forefront of large scale computa...
To determine global behaviour of a dynamical system, one must find invariant sets (attractors) and t...