We present a performance evaluation conducted on a production supercomputer of the Intel Xeon Processor E5- 2680v3, a twelve-core implementation of the fourth-generation Haswell architecture, and compare it with Intel Xeon Processor E5-2680v2, an Ivy Bridge implementation of the third-generation Sandy Bridge architecture. Several new architectural features have been incorporated in Haswell including improvements in all levels of the memory hierarchy as well as improvements to vector instructions and power management. We critically evaluate these new features of Haswell and compare with Ivy Bridge using several low-level benchmarks including subset of HPCC, HPCG and four full-scale scientific and engineering applications. We also present a m...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
In this paper we report on a set of benchmark results recently obtained by CERN openlab when compari...
This paper presents an extensive performance study of the implementation of Hardware Transactional M...
AbstractThe HPC Challenge (HPCC) Benchmark suite and the Intel MPI Benchmark (IMB) are used to compa...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code namedNehalem-EX, bri...
Abstract—Accelerators are used in about 13 % of the current Top500 List. Supercomputers leveraging a...
With the release of the Apple Silicon System-on-a-Chip processors, and theimpressive performance sho...
AbstractIn this paper we take a look at what the new Intel instruction extensions - Intel Advance Ve...
This thesis contains a detailed comparison of the computation and communication performance of two ...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
The growing gap between sustained and peak performance for scientific applications is a well-known p...
James Reinders (Chief Evangelist of Intel® Software at Intel) and Jim Jeffers (Principal Engineer at...
Recently, a number of advanced architecture machines have become commercially available. These new m...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
In this paper we report on a set of benchmark results recently obtained by CERN openlab when compari...
This paper presents an extensive performance study of the implementation of Hardware Transactional M...
AbstractThe HPC Challenge (HPCC) Benchmark suite and the Intel MPI Benchmark (IMB) are used to compa...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code namedNehalem-EX, bri...
Abstract—Accelerators are used in about 13 % of the current Top500 List. Supercomputers leveraging a...
With the release of the Apple Silicon System-on-a-Chip processors, and theimpressive performance sho...
AbstractIn this paper we take a look at what the new Intel instruction extensions - Intel Advance Ve...
This thesis contains a detailed comparison of the computation and communication performance of two ...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
The growing gap between sustained and peak performance for scientific applications is a well-known p...
James Reinders (Chief Evangelist of Intel® Software at Intel) and Jim Jeffers (Principal Engineer at...
Recently, a number of advanced architecture machines have become commercially available. These new m...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...