This paper describes a state-of-the-art parallel Lattice QCD Monte Carlo code for staggered fermions, purposely designed to be portable across different computer architectures, including GPUs and commodity CPUs. Portability is achieved using the OpenACC parallel programming model, used to develop a code that can be compiled for several processor architectures. The paper focuses on parallelization on multiple computing nodes using OpenACC to manage parallelism within the node, and OpenMPI to manage parallelism among the nodes. We first discuss the available strategies to be adopted to maximize performances, we then describe selected relevant details of the code, and finally measure the level of performance and scaling-performance that we are...
International audienceThe supercomputing platforms available for high performance computing based re...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
AbstractWe are developing a new code set “Bridge++” for lattice QCD (Quantum Chromodynamics) simulat...
This paper describes a state-of-the-art parallel Lattice QCD Monte Carlo code for staggered fermions...
Varying from multi-core CPU processors to many-core GPUs, the present scenario of HPC architectures ...
The present panorama of HPC architectures is extremely heterogeneous, ranging from traditional multi...
Numerical simulations in theoretical high-energy physics (Lattice QCD) require huge computing resour...
We present $\texttt{SIMULATeQCD}$, HotQCD's software for performing lattice QCD calculations on GPUs...
In this contribution we measure the computing and energy performance of the recently developed DAVID...
An increasing number of massively parallel machines adopt heterogeneous node architectures combinin...
OpenCL and OpenACC are generic frameworks for heterogeneous programming using CPU and accelerator de...
A new Monte Carlo code called OpenMC is currently under development at the Massachusetts Institute o...
AbstractQPACE is a novel massively parallel architecture optimized for lattice QCD simulations. A si...
Many scientific software applications, that solve complex compute-or data-intensive problems, such a...
AbstractOpenCL and OpenACC are generic frameworks for heterogeneous programming using CPU and accele...
International audienceThe supercomputing platforms available for high performance computing based re...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
AbstractWe are developing a new code set “Bridge++” for lattice QCD (Quantum Chromodynamics) simulat...
This paper describes a state-of-the-art parallel Lattice QCD Monte Carlo code for staggered fermions...
Varying from multi-core CPU processors to many-core GPUs, the present scenario of HPC architectures ...
The present panorama of HPC architectures is extremely heterogeneous, ranging from traditional multi...
Numerical simulations in theoretical high-energy physics (Lattice QCD) require huge computing resour...
We present $\texttt{SIMULATeQCD}$, HotQCD's software for performing lattice QCD calculations on GPUs...
In this contribution we measure the computing and energy performance of the recently developed DAVID...
An increasing number of massively parallel machines adopt heterogeneous node architectures combinin...
OpenCL and OpenACC are generic frameworks for heterogeneous programming using CPU and accelerator de...
A new Monte Carlo code called OpenMC is currently under development at the Massachusetts Institute o...
AbstractQPACE is a novel massively parallel architecture optimized for lattice QCD simulations. A si...
Many scientific software applications, that solve complex compute-or data-intensive problems, such a...
AbstractOpenCL and OpenACC are generic frameworks for heterogeneous programming using CPU and accele...
International audienceThe supercomputing platforms available for high performance computing based re...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
AbstractWe are developing a new code set “Bridge++” for lattice QCD (Quantum Chromodynamics) simulat...