The performance of one computer relative to another is traditionally characterized through benchmarking, a practice occasionally deficient in statistical rigor. The performance is often trivialized through simplified measures, such as the approach of central tendency, but doing so risks a loss of perspective of the variability and non-determinism of modern computer systems. Authentic performance evaluations are derived from statistical methods that accurately interpret and assess data. Methods that currently exist within performance comparison frameworks are limited in efficacy, statistical inference is either overtly simplified or altogether avoided. A prevalent criticism from computer performance literature suggests that the results from ...
High performance computing systems are characterized by a high level of complexity both on their har...
International audience—This article is a continuation of our previous research effort on program per...
\u3cp\u3eIn cyber-physical systems such as intelligent lighting, the system responds autonomously to...
As a fundamental task in computer architecture research, performance comparison has been continuousl...
Embedded systems have seen a rapid integration into all forms of industry as they continue to shrink...
An index to compare supercomputers is proposed in the study. This index is based on the concept of t...
AbstractHigh-performance computing (HPC) benchmarks are widely used to evaluate and rank system perf...
textComputer benchmarking involves running a set of benchmark programs to measure performance of a c...
Performance comparisons are ubiquitous in computer science. The proceedings of most conferences are ...
Developing state-of-the-art approaches for specific tasks is a major driving force in our research c...
In this dissertation, we demonstrate that it is possible to develop methods of empirical hardware-co...
The computing community has long faced the problem of scientifically comparing different computers a...
Historically, benchmarks have been used for commercial purposes. A customer develops or selects a be...
This paper has been motivated by two observations. First, empirical comparison of algorithms is ofte...
Big Data analysis is of great challenges in practice. The data set sizes will grow quickly. And anal...
High performance computing systems are characterized by a high level of complexity both on their har...
International audience—This article is a continuation of our previous research effort on program per...
\u3cp\u3eIn cyber-physical systems such as intelligent lighting, the system responds autonomously to...
As a fundamental task in computer architecture research, performance comparison has been continuousl...
Embedded systems have seen a rapid integration into all forms of industry as they continue to shrink...
An index to compare supercomputers is proposed in the study. This index is based on the concept of t...
AbstractHigh-performance computing (HPC) benchmarks are widely used to evaluate and rank system perf...
textComputer benchmarking involves running a set of benchmark programs to measure performance of a c...
Performance comparisons are ubiquitous in computer science. The proceedings of most conferences are ...
Developing state-of-the-art approaches for specific tasks is a major driving force in our research c...
In this dissertation, we demonstrate that it is possible to develop methods of empirical hardware-co...
The computing community has long faced the problem of scientifically comparing different computers a...
Historically, benchmarks have been used for commercial purposes. A customer develops or selects a be...
This paper has been motivated by two observations. First, empirical comparison of algorithms is ofte...
Big Data analysis is of great challenges in practice. The data set sizes will grow quickly. And anal...
High performance computing systems are characterized by a high level of complexity both on their har...
International audience—This article is a continuation of our previous research effort on program per...
\u3cp\u3eIn cyber-physical systems such as intelligent lighting, the system responds autonomously to...