The Roofline Performance Model is a visually intuitive method used to bound the sustained peak floating-point performance of any given arithmetic kernel on any given processor architecture. In the Roofline, performance is nominally measured in floating-point operations per second as a function of arithmetic intensity (operations per byte of data). In this study we determine the Roofline for the Intel Knights Landing (KNL) processor, determining the sustained peak memory bandwidth and floating-point performance for all levels of the memory hierarchy, in all the different KNL cluster modes.We then determine arithmetic intensity and performance for a suite of application kernels being targeted for the KNL based supercomputer Cori, and make com...
The Knights Landing (KNL) is the codename for the latest generation of Intel processors based on Int...
As we move towards exascale computing, the efficiency of application performance and energy utilizat...
We propose an easy-to-understand, visual performance model that offers insights to programmers and a...
In this session we show, in two case studies, how the roofline feature of Intel Advisor has been uti...
Manufacturers will likely offer multiple products with differing numbers of cores to cover multiple ...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
The Knights Landing (KNL) release of the Intel Many Integrated Core (MIC) Xeon Phi line of processor...
The Knights Landing (KNL) release of the Intel Many Integrated Core (MIC) Xeon Phi line of processor...
This best practice guide provides information about Intel's MIC architecture and programming models ...
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...
There are many potential issues associated with deploying the Intel Xeon PhiTM (code named Knights L...
The landscape of HPC architectures has undergone signi cant change in the last few years. Notably, t...
Presented at HiPEAC Conference 2020, Bologna (Italy)Time series analysis is an important research to...
Benefits of Intel Xeon Phi Knights Landing (KNL) systems in computing cost are examined with tight-b...
The Knights Landing (KNL) is the codename for the latest generation of Intel processors based on Int...
As we move towards exascale computing, the efficiency of application performance and energy utilizat...
We propose an easy-to-understand, visual performance model that offers insights to programmers and a...
In this session we show, in two case studies, how the roofline feature of Intel Advisor has been uti...
Manufacturers will likely offer multiple products with differing numbers of cores to cover multiple ...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
The Knights Landing (KNL) release of the Intel Many Integrated Core (MIC) Xeon Phi line of processor...
The Knights Landing (KNL) release of the Intel Many Integrated Core (MIC) Xeon Phi line of processor...
This best practice guide provides information about Intel's MIC architecture and programming models ...
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...
There are many potential issues associated with deploying the Intel Xeon PhiTM (code named Knights L...
The landscape of HPC architectures has undergone signi cant change in the last few years. Notably, t...
Presented at HiPEAC Conference 2020, Bologna (Italy)Time series analysis is an important research to...
Benefits of Intel Xeon Phi Knights Landing (KNL) systems in computing cost are examined with tight-b...
The Knights Landing (KNL) is the codename for the latest generation of Intel processors based on Int...
As we move towards exascale computing, the efficiency of application performance and energy utilizat...
We propose an easy-to-understand, visual performance model that offers insights to programmers and a...