Today, one of the main challenges for high-performance computing systems is to improve their performance by keeping energy consumption at acceptable levels. In this context, a consolidated strategy consists of using accelerators such as GPUs or many-core Intel Xeon Phi processors. In this work, devices of the NVIDIA Pascal and Intel Xeon Phi Knights Landing architectures are described and compared. Selecting the Floyd-Warshall algorithm as a representative case of graph and memory-bound applications, optimized implementations were developed to analyze and compare performance and energy efficiency on both devices. As it was expected, Xeon Phi showed superior when considering double-precision data. However, contrary to what was considered in ...
The integration of the latest breakthroughs in computational modeling and high performance computing...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
The Intel R Xeon PhiTM is the first processor based on Intel’s MIC (Many Integrated Cores) architect...
Manycores are consolidating in HPC community as a way of improving performance while keeping power e...
Abstract—Accelerators are used in about 13 % of the current Top500 List. Supercomputers leveraging a...
In this work we focus on energy performance of the Knights Landing Xeon Phi, the latest many-core ar...
Energy consumption of processors and memories is quickly becoming a limiting factor in the deploymen...
Intel Xeon Phi many-integrated-core (MIC) architectures usher in a new era of terascale integration....
As we move towards exascale computing, the efficiency of application performance and energy utilizat...
International audienceThis paper presents preliminary performance comparisons of parallel applicatio...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
Intel\u27s Xeon Phi coprocessor has successfully proved its capability by being used in Tianhe-2 and...
As Moore s law continues, processors keep getting more cores packed together on the chip. This thesi...
2016The Intel Xeon Phi is a relative newcomer to the scientific computing scene. In the recent year...
The increasing demand for High Performance Computing (HPC) paired with the higher power requirements...
The integration of the latest breakthroughs in computational modeling and high performance computing...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
The Intel R Xeon PhiTM is the first processor based on Intel’s MIC (Many Integrated Cores) architect...
Manycores are consolidating in HPC community as a way of improving performance while keeping power e...
Abstract—Accelerators are used in about 13 % of the current Top500 List. Supercomputers leveraging a...
In this work we focus on energy performance of the Knights Landing Xeon Phi, the latest many-core ar...
Energy consumption of processors and memories is quickly becoming a limiting factor in the deploymen...
Intel Xeon Phi many-integrated-core (MIC) architectures usher in a new era of terascale integration....
As we move towards exascale computing, the efficiency of application performance and energy utilizat...
International audienceThis paper presents preliminary performance comparisons of parallel applicatio...
Intel's Xeon Phi combines the parallel processing power of a many-core accelerator with the programm...
Intel\u27s Xeon Phi coprocessor has successfully proved its capability by being used in Tianhe-2 and...
As Moore s law continues, processors keep getting more cores packed together on the chip. This thesi...
2016The Intel Xeon Phi is a relative newcomer to the scientific computing scene. In the recent year...
The increasing demand for High Performance Computing (HPC) paired with the higher power requirements...
The integration of the latest breakthroughs in computational modeling and high performance computing...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
The Intel R Xeon PhiTM is the first processor based on Intel’s MIC (Many Integrated Cores) architect...