The NAS Parallel Benchmarks (NPB), originally implemented mostly in Fortran, is a consolidated suite containing several benchmarks extracted from Computational Fluid Dynamics (CFD) models. The benchmark suite has important characteristics such as intensive memory communications, complex data dependencies, different memory access patterns, and hardware components/sub-systems overload. Parallel programming APIs, libraries, and frameworks that are written in C++ as well as new optimizations and parallel processing techniques can benefit if NPB is made fully available in this programming language. In this paper we present NPB-CPP, a fully C++ translated version of NPB consisting of all the NPB kernels and pseudo-applications developed using Ope...
In this paper we describe the parallelization of the multi-zone code versions of the NAS Parallel Be...
The availability of modern commodity multicore processors and multiprocessor computer systems has re...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
The NAS Parallel Benchmarks (NPB), originally implemented mostly in Fortran, is a consolidated suite...
Benchmarking is a way to study the performance of new architectures and parallel programming framewo...
This release contains the codes of the NPB-CPP benchmark applications published on FGCS article [[DO...
NAS Parallel Benchmarks (NPB) is a standard benchmark suite used in the evaluation of parallel hardw...
The thesis describes an efficient implementation of a subset of the NPB algorithms for the multicore...
A new set of benchmarks was developed for the performance evaluation of highly parallel supercompute...
NAS Parallel Benchmarks (NPB) are one of the standard benchmark suites used to evaluate parallel har...
Nowadays, shared-memory parallel architectures have evolved and new programming frameworks have appe...
Parallelization of high performance computing applications has been a field of active research for q...
This paper discusses the parallel design of COOLFluiD (Computational Object Oriented Library for Flu...
This report describes experiences with implementing the NAS Computational Fluid Dynamics benchmarks ...
The purpose of this report is to exchange our experience with parallelizing existing scientific code...
In this paper we describe the parallelization of the multi-zone code versions of the NAS Parallel Be...
The availability of modern commodity multicore processors and multiprocessor computer systems has re...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
The NAS Parallel Benchmarks (NPB), originally implemented mostly in Fortran, is a consolidated suite...
Benchmarking is a way to study the performance of new architectures and parallel programming framewo...
This release contains the codes of the NPB-CPP benchmark applications published on FGCS article [[DO...
NAS Parallel Benchmarks (NPB) is a standard benchmark suite used in the evaluation of parallel hardw...
The thesis describes an efficient implementation of a subset of the NPB algorithms for the multicore...
A new set of benchmarks was developed for the performance evaluation of highly parallel supercompute...
NAS Parallel Benchmarks (NPB) are one of the standard benchmark suites used to evaluate parallel har...
Nowadays, shared-memory parallel architectures have evolved and new programming frameworks have appe...
Parallelization of high performance computing applications has been a field of active research for q...
This paper discusses the parallel design of COOLFluiD (Computational Object Oriented Library for Flu...
This report describes experiences with implementing the NAS Computational Fluid Dynamics benchmarks ...
The purpose of this report is to exchange our experience with parallelizing existing scientific code...
In this paper we describe the parallelization of the multi-zone code versions of the NAS Parallel Be...
The availability of modern commodity multicore processors and multiprocessor computer systems has re...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...