Manufacturers will likely offer multiple products with differing numbers of cores to cover multiple price-performance points, since Moore's Law will permit the doubling of the number of cores per chip every two years. While diversity may be understandable in this time of uncertainty, it exacerbates the already difficult jobs of programmers, compiler writers, and even architects. Hence, an easy-to-understand model that offers performance guidelines would be especially valuable. This article proposes one such model called Roofline, demonstrating it on four diverse multicore computers using four key floating-point kernels. The proposed Roofline model ties together floating-point performance, operational intensity, and memory performance in a 2...
We present preliminary results of theRooflineToolkit formulticore, manycore, and accelerated archite...
Multi-core and many-core were already major trends for the past six years, and are expected to conti...
Multi-core and many-core were already major trends for the past six years and are expected to contin...
We propose an easy-to-understand, visual performance model that offers insights to programmers and a...
The Roofline model offers insight on how to improve the performance of software and hardware
With energy-efficient architectures, including accelerators and many-core processors, gaining tracti...
This article consists of a collection of slides from the authors' conference presentation. The Roofl...
Understanding the performance of applications on modern multi- and manycore platforms is a difficult...
The end of Dennard scaling signaled a shift in HPC supercomputer architectures from systems built fr...
The Roofline Performance Model is a visually intuitive method used to bound the sustained peak float...
International audienceThe roofline model is a popular approach to ``bounds and bottleneck''performan...
Multi-core and many-core were already major trends for the past six years, and are expected to conti...
Multi-core and many-core were already major trends for the past six years and are expected to contin...
We present preliminary results of theRooflineToolkit formulticore, manycore, and accelerated archite...
Multi-core and many-core were already major trends for the past six years, and are expected to conti...
Multi-core and many-core were already major trends for the past six years and are expected to contin...
We propose an easy-to-understand, visual performance model that offers insights to programmers and a...
The Roofline model offers insight on how to improve the performance of software and hardware
With energy-efficient architectures, including accelerators and many-core processors, gaining tracti...
This article consists of a collection of slides from the authors' conference presentation. The Roofl...
Understanding the performance of applications on modern multi- and manycore platforms is a difficult...
The end of Dennard scaling signaled a shift in HPC supercomputer architectures from systems built fr...
The Roofline Performance Model is a visually intuitive method used to bound the sustained peak float...
International audienceThe roofline model is a popular approach to ``bounds and bottleneck''performan...
Multi-core and many-core were already major trends for the past six years, and are expected to conti...
Multi-core and many-core were already major trends for the past six years and are expected to contin...
We present preliminary results of theRooflineToolkit formulticore, manycore, and accelerated archite...
Multi-core and many-core were already major trends for the past six years, and are expected to conti...
Multi-core and many-core were already major trends for the past six years and are expected to contin...