The increasing number of mobile devices with ever-growing processing capabilities, make them interesting for scientific applications development. However, we must take into account that mobile devices still have limited capabilities compared to fixed devices. Besides, mobile devices rely on battery as energy supply. For these reasons, this paper analyzes different micro-benchmarks battery consumption given by common operations in scientific computational kernels. Indirectly, we propose good programming practices or code refactorings in order to minimize mobile devices battery consumption.Sociedad Argentina de Informática e Investigación Operativ
Mobile and wearable devices are nowadays the de facto personal computers, while desktop computers ar...
In recent years, mobile operating systems, represented by android and iOS, have become more and more...
abstract: A benchmark suite that is representative of the programs a processor typically executes is...
The increasing number of mobile devices with ever-growing capabilities makes them useful for running...
Mobile systems, such as smart phones, tablets, have become the primary resources of computation for ...
The introduction of mobile devices changed the landscape of computing. Gradually, these devices are ...
textComponents used in mobile hand-held devices (smart phones and tablets) vary greatly in performan...
The advances made in mobile and low-powered computing within the last decade has made mobility a key...
Today, mobile devices such as smart phones and tablets have become ubiquitous and are used everywher...
Abstract — Smartphones have gained enormous popularity over the past few years. Smartphones are now ...
With advances in hardware miniaturization and wireless communication technologies even small portabl...
In-laboratory mobile device data gathering is useful to support fields of study that rely on data de...
Today, millions of users worldwide experience pervasive email and Web access through IPhones, Black ...
Modern smartphones are increasingly performant and feature-rich, but because they are battery powere...
The main goal o f this final project is to study the practical computational efficiency of a cluster...
Mobile and wearable devices are nowadays the de facto personal computers, while desktop computers ar...
In recent years, mobile operating systems, represented by android and iOS, have become more and more...
abstract: A benchmark suite that is representative of the programs a processor typically executes is...
The increasing number of mobile devices with ever-growing capabilities makes them useful for running...
Mobile systems, such as smart phones, tablets, have become the primary resources of computation for ...
The introduction of mobile devices changed the landscape of computing. Gradually, these devices are ...
textComponents used in mobile hand-held devices (smart phones and tablets) vary greatly in performan...
The advances made in mobile and low-powered computing within the last decade has made mobility a key...
Today, mobile devices such as smart phones and tablets have become ubiquitous and are used everywher...
Abstract — Smartphones have gained enormous popularity over the past few years. Smartphones are now ...
With advances in hardware miniaturization and wireless communication technologies even small portabl...
In-laboratory mobile device data gathering is useful to support fields of study that rely on data de...
Today, millions of users worldwide experience pervasive email and Web access through IPhones, Black ...
Modern smartphones are increasingly performant and feature-rich, but because they are battery powere...
The main goal o f this final project is to study the practical computational efficiency of a cluster...
Mobile and wearable devices are nowadays the de facto personal computers, while desktop computers ar...
In recent years, mobile operating systems, represented by android and iOS, have become more and more...
abstract: A benchmark suite that is representative of the programs a processor typically executes is...