In this work, we consider the GPU implementation of the steepest descent method with Fourier acceleration for Laudau gauge fixing, using CUDA. The performance of the code in a Tesla C2070 GPU is compared with a parallel CPU implementation. Xth Quark Confinement and the Hadron Spectru
The compute unified device architecture (CUDA) is a programming approach for performing scientific c...
Kaczmarek O, Schmidt C, Steinbrecher P, Wagner M. Conjugate gradient solvers on Intel Xeon Phi and N...
We present the first GPU-based conjugate gradient (CG) solver for lattice QCD with domain-wall fermi...
We discuss how the steepest descent method with Fourier acceleration for Laudau gauge fixing in latt...
We explore the performance of CUDA in performing Landau gauge fixing in Lattice QCD, using the steep...
We adopt CUDA-capable Graphic Processing Units (GPUs) for Landau, Coulomb and maximally Abelian gaug...
We discuss the CUDA approach to the simulation of pure gauge Lattice SU(2). CUDA is a hardware and s...
In this work we explore the performance of CUDA in quenched lattice SU(2) simulations. CUDA, NVIDIA ...
The starting point of any lattice QCD computation is the generation of a Markov chain of gauge field...
Here we present the cuLGT 1 code for gauge fixing in lattice gauge field theories with graphic proce...
Graphics Processing Units (GPUs) are being used in many areas of physics, since the performance vers...
Abstract—Computing platforms equipped with accelerators like GPUs have proven to provide great compu...
Modern graphics hardware is well suited to highly parallel nu-merical tasks and provides significant...
Fourier acceleration is a useful technique which can be applied to many different numerical algorith...
We extend the QUDA library, an open source library for performing calculations in lattice QCD on Gra...
The compute unified device architecture (CUDA) is a programming approach for performing scientific c...
Kaczmarek O, Schmidt C, Steinbrecher P, Wagner M. Conjugate gradient solvers on Intel Xeon Phi and N...
We present the first GPU-based conjugate gradient (CG) solver for lattice QCD with domain-wall fermi...
We discuss how the steepest descent method with Fourier acceleration for Laudau gauge fixing in latt...
We explore the performance of CUDA in performing Landau gauge fixing in Lattice QCD, using the steep...
We adopt CUDA-capable Graphic Processing Units (GPUs) for Landau, Coulomb and maximally Abelian gaug...
We discuss the CUDA approach to the simulation of pure gauge Lattice SU(2). CUDA is a hardware and s...
In this work we explore the performance of CUDA in quenched lattice SU(2) simulations. CUDA, NVIDIA ...
The starting point of any lattice QCD computation is the generation of a Markov chain of gauge field...
Here we present the cuLGT 1 code for gauge fixing in lattice gauge field theories with graphic proce...
Graphics Processing Units (GPUs) are being used in many areas of physics, since the performance vers...
Abstract—Computing platforms equipped with accelerators like GPUs have proven to provide great compu...
Modern graphics hardware is well suited to highly parallel nu-merical tasks and provides significant...
Fourier acceleration is a useful technique which can be applied to many different numerical algorith...
We extend the QUDA library, an open source library for performing calculations in lattice QCD on Gra...
The compute unified device architecture (CUDA) is a programming approach for performing scientific c...
Kaczmarek O, Schmidt C, Steinbrecher P, Wagner M. Conjugate gradient solvers on Intel Xeon Phi and N...
We present the first GPU-based conjugate gradient (CG) solver for lattice QCD with domain-wall fermi...