122 research outputs found

    Profiling Power Consumption on Mobile Devices

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    The proliferation of mobile devices, and the migration of the information access paradigm to mobile platforms, motivate studies of power consumption behaviors with the purpose of increasing the device battery life. The aim of this work is to profile the power consumption of a Samsung Galaxy I7500 and a Samsung Nexus S, in order to understand how such feature has evolved over the years. We performed two experiments: the first one measures consumption for a set of usage scenarios, which represent common daily user activities, while the second one analyzes a context-aware application with a known source code. The first experiment shows that the most recent device in terms of OS and hardware components shows significantly lower consumption than the least recent one. The second experiment shows that the impact of different configurations of the same application causes a different power consumption behavior on both smartphones. Our results show that hardware improvements and energy-aware software applications greatly impact the energy efficiency of mobile device

    Energy-Efficient Software

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    Energy Efficiency in the ICT - Profiling Power Consumption in Desktop Computer Systems

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    Energy awareness in the ICT has become an important issue. Focusing on software, recent work suggested the existence of a relationship between power consumption, software configuration and usage patterns in computer systems. The aim of this work was collecting and analysing power consumption data of general-purpose computer systems, simulating common usage scenarios, in order to extract a power consumption profile for each scenario. We selected two desktop systems of different generations as test machines. Meanwhile, we developed 11 usage scenarios, and conducted several test runs of them, collecting power consumption data by means of a power meter. Our analysis resulted in an estimation of a power consumption value for each scenario and software application used, obtaining that each single scenario introduced an overhead from 2 to 11 Watts, which corresponds to a percentage increase that can reach up to 20% on recent and more powerful systems. We determined that software and its usage patterns impact consistently on the power consumption of computer systems. Further work will be devoted to evaluate how power consumption is affected by the usage of specific system resource

    Four-Dimensional Sustainable E-Services

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    Four-Dimensional Sustainable E-Services

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    E-services are not sustainable, unless we specifically design for sustainability along four dimensions (4D): economical, technical, environmental, and social. Economic sustainability to ensure that e-services create economic value; technical sustainability so that their technical assets actually enable the e-services to cope with changes; environmental sustainability to avoid that e-services harm the environment they operate in, and social sustainability to ensure e-services provide fair exchange of information between parties. Designing 4D-sustainable e-services is very complex. So far, service-engineering research has left dealing with such complexity unassistedā€”mainly due to the many initial technical challenges that needed to be overcome. Our goal is to fill this gap, by modeling the fundamentals of 4D-sustainable e-services. We propose a conceptual approach for representing 4D-sustainability. Our goal is to enhance the shared understanding amongst sustainability stakeholders, and to ease sustainability assessment and negotiation. Our approach offers a number of interrelated core elements (common among the four sustainability dimensions) as well as dimension-specific elements, variable elements. By focusing on 4D core elements, we enable describing the essence of sustainable e-services in a unified manner. We illustrate the value of the conceptual model using a real-life case study featuring an airport baggage handling syste

    Green Architectural Tactics for the Cloud

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    Energy efficiency is a primary concern for the ICT sector. In particular, the widespread adoption of cloud computing technologies has drawn attention to the massive energy consumption of data centers. Although hardware constantly improves with respect to energy efficiency, this should also be a main concern forsoftware. In previous work we analyzed the literature and elicited a set of techniques for addressing energy efficiency in cloud-based software architectures. In this work we codified these techniques in the form of Green Architectural Tactics. These tactics will help architects extend their design reasoning towards energy efficiencyand to apply reusable solutions for greener software

    Green Architectural Tactics for the Cloud

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    A systematic literature review on Energy Efficiency in Cloud Software Architectures

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    Cloud-based software architectures introduce more complexity and require new competences for migration, maintenance, and evolution. Although cloud computing is often considered as an energy-efficient technology, the implications of cloud-based software on energy efficiency lack scientific evidence. At the same time, energy efficiency is becoming a crucial requirement for cloud service provisioning, as energy costs significantly contribute to the Total Cost of Ownership (TCO) of a data center. In this paper, we present the results of a systematic literature review that investigates cloud software architectures addressing energy efficiency as a primary concern. The aim is to provide an analysis of the state-of-the-art in the field of energy-efficient software architectures

    Architecture Strategies for Cyber-Foraging: Preliminary Results from a Systematic Literature Review

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    Mobile devices have become for many the preferred way of interacting with the Internet, social media and the enterprise. However, mobile devices still do not have the computing power and battery life that will allow them to perform effectively over long periods of time or for executing applications that require extensive communication or computation, or low latency. Cyber-foraging is a technique to enable mobile devices to extend their computing power and storage by offloading computation or data to more powerful servers located in the cloud or in single-hop proximity. This paper presents the preliminary results of a systematic literature review (SLR) on architectures that support cyber-foraging. The preliminary results show that this is an area with many opportunities for research that will enable cyber-foraging solutions to become widely adopted as a way to support the mobile applications of the present and the future
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