In this paper we take a look at what the Intel Xeon Processor 7500 family, code namedNehalem-EX, brings to high performance computing. We compare two families of Intel Xeonbased systems (Intel Xeon 7500 and Intel Xeon 5600) and present a performance evolutionof 16 node clusters based on these CPUs. We compare CPU generations utilizing dual socketplatforms and a cluster across a number of HPC benchmarks and focused on differentperformance field and aspect. We will evaluate also technologies and features like Intels HyperThreading Technology (HT) and Intel Turbo Boost Technology (Turbo Mode) and theperformance implication of these technologies for HPC
The aim of this thesis is to present trends in microprocessor architectures within the context of a ...
In this session we show, in two case studies, how the roofline feature of Intel Advisor has been uti...
The main topic of this thesis is the implementation and subsequent optimization of high performance ...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code namedNehalem-EX, bri...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code named Nehalem-EX, br...
One year after the arrival of the Intel Xeon 7500 systems (“Nehalem-EX”), CERN openlab is presenting...
AbstractWith the recent advent of novel multi- and many-core hardware architectures, application pro...
In this paper, we present an early performance evaluation of a 624-core cluster based on the Intel ®...
In this paper we report on a set of benchmark results recently obtained by the CERN openlab by compa...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
High performance is a critical requirement to all microprocessors manufacturers. The present paper d...
James Reinders (Chief Evangelist of Intel® Software at Intel) and Jim Jeffers (Principal Engineer at...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
The performance1 of Linux clusters used for High-Performance Computation (HPC) applications is affec...
Les systèmes d'information et les infrastructures de Calcul Haute Performance (HPC) participent acti...
The aim of this thesis is to present trends in microprocessor architectures within the context of a ...
In this session we show, in two case studies, how the roofline feature of Intel Advisor has been uti...
The main topic of this thesis is the implementation and subsequent optimization of high performance ...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code namedNehalem-EX, bri...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code named Nehalem-EX, br...
One year after the arrival of the Intel Xeon 7500 systems (“Nehalem-EX”), CERN openlab is presenting...
AbstractWith the recent advent of novel multi- and many-core hardware architectures, application pro...
In this paper, we present an early performance evaluation of a 624-core cluster based on the Intel ®...
In this paper we report on a set of benchmark results recently obtained by the CERN openlab by compa...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
High performance is a critical requirement to all microprocessors manufacturers. The present paper d...
James Reinders (Chief Evangelist of Intel® Software at Intel) and Jim Jeffers (Principal Engineer at...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
The performance1 of Linux clusters used for High-Performance Computation (HPC) applications is affec...
Les systèmes d'information et les infrastructures de Calcul Haute Performance (HPC) participent acti...
The aim of this thesis is to present trends in microprocessor architectures within the context of a ...
In this session we show, in two case studies, how the roofline feature of Intel Advisor has been uti...
The main topic of this thesis is the implementation and subsequent optimization of high performance ...