1,073 research outputs found
Teaching high-performance service in a cluster computing course
[EN] Most courses on cluster computing in graduate and postgraduate studies are focused on parallel programming and high-performance/high-throughput computing. This is the typical usage of clusters in academia and research centres. However, nowadays, many companies are providing web, mail and, in general, Internet services using computer clusters. These services require a different ``cluster flavour'': high-performance service and high availability. Despite the fact that computer clusters for each environment demand a different configuration, most university cluster computing courses keep focusing only on high-performance computing, ignoring other possibilities. In this paper, we propose several teaching strategies for a course on cluster computing that could fill this gap. The content developed here would be taught as a part of the course. The subject shows several strategies about how to configure, test and evaluate a high-availability/load-balanced Internet server. A virtualization-based platform is used to build a cluster prototype, using Linux as its operating system. Evaluation of the course shows that students knowledge and skills on the subject are improved at the end of the course. On the other hand, regarding the teaching methodology, the results obtained in the yearly survey of the University confirm student satisfaction.This work was supported in part by the Spanish Ministerio de Economia y Competitividad (MINECO) and by FEDER funds under Grant TIN2015-66972-C5-1-R.López Rodríguez, PJ.; Baydal Cardona, ME. (2018). Teaching high-performance service in a cluster computing course. Journal of Parallel and Distributed Computing. 117:138-147. https://doi.org/10.1016/j.jpdc.2018.02.027S13814711
On a course on computer cluster configuration and administration
[EN] Computer clusters are today a cost-effective way of providing either high-performance and/or high-availability. The flexibility of their configuration aims to fit the needs of multiple environments, from small servers to SME and large Internet servers. For these reasons, their usage has expanded not only in academia but also in many companies. However, each environment needs a different ¿cluster flavour¿. High-performance and high-throughput computing are required in universities and research centres while high-performance service and high-availability are usually reserved to use in companies. Despite this fact, most university cluster computing courses continue to cover only high-performance computing, usually ignoring other possibilities. In this paper, a master-level course which attempts to fill this gap is discussed.
It explores the different types of cluster computing as well as their functional basis, from a very practical point of view. As part of the teaching methodology, each student builds from scratch a computer cluster based on a virtualization tool. The entire process is designed to be scalable. The goal is to be able to apply it to an actual computer cluster with a larger number of nodes, such as those the students may subsequently encounter in their professional life.This work was supported in part by the Spanish Ministerio de Economia y Competitividad (MINECO) and by FEDER funds under Grant TIN2015-66972-C5-1-R.López Rodríguez, PJ.; Baydal Cardona, ME. (2017). On a course on computer cluster configuration and administration. Journal of Parallel and Distributed Computing. 105:127-137. https://doi.org/10.1016/j.jpdc.2017.01.009S12713710
Evaluation of the power frequency magnetic field generated by three-core armored cables through 3D finite element simulations
The great expansion in offshore power plants is raising the concern regarding
the cumulative effect of the electromagnetic field emissions caused by
submarine power cables. In this sense, owners are required to predict these
emissions during the permitting and consenting process of new power plants.
This is a challenging task, especially in the case of HVAC three-core armored
cables due to their complex geometry. Customarily, 2D approaches based on the
finite element method (FEM) have been employed for evaluating the magnetic
field emissions caused by these cables. However, inaccurate results are
obtained since the phase conductors and armor twisting is omitted. This work
develops, for the first time in the literature, an in-depth analysis of the
magnetic field caused by this type of cable through an ultra-shortened 3D-FEM
model, which is also faced to experimental measurements taken on an actual 132
kV, 800 mm2 three-core armored cable. Relevant conclusions are derived
regarding the impact of the cable design on the magnetic field emissions,
including material properties, as well as single and double-layer armors,
presenting the proposed model not only as a valuable tool for predicting
purposes, but also for optimizing cable design in terms of magnetic field
emissions
A Survey on Optimization Techniques Applied to Magnetic Field Mitigation in Power Systems
With the continuous increase in the number and relevance of electric transmission lines and distribution networks, there is a higher exposure to the magnetic fields generated by them, leading to more cases of human electrosensitivity, which greatly necessitates the design and development of magnetic field mitigation procedures and, at the same time, the need to minimize both performance degradation and deterioration in the efficiency as well. During the last four decades, fruitful results have been reported about extremely low frequency magnetic field mitigation, giving a wide variety of solutions. This survey paper aims to give a comprehensive overview of cost-effective optimization techniques destined to magnetic field mitigation in power systems, with particular attention to the results reported in the last decade.Agencia Estatal de Investigación and Fondo Europeo de Desarrollo Regional (AEI/FEDER, UE) project ENE2017-89669-RUniversidad de Sevilla (VI PPIT-US) grant 2018/0000074
Evaluation of the power frequency magnetic field generated by three-core armored cables through 3D finite element simulations
The great expansion in offshore power plants is raising the concern regarding the cumulative effect of the electromagnetic field emissions caused by submarine power cables. In this sense, owners are required to predict these emissions during the permitting and consenting process of new power plants. This is a challenging task, especially in the case of HVAC three-core armored cables due to their complex geometry. Customarily, 2D approaches based on the finite element method (FEM) have been employed for evaluating the magnetic field emissions caused by these cables. However, inaccurate results are obtained since the phase conductors and armor twisting is omitted. This work develops, for the first time in the literature, an in-depth analysis of the magnetic field caused by this type of cable through an ultra-shortened 3D-FEM model, which is also faced to experimental measurements taken on an actual 132 kV, 800 mm2 three-core armored cable. Relevant conclusions are derived regarding the impact of the cable design on the magnetic field emissions, including material properties, as well as single and double-layer armors, presenting the proposed model not only as a valuable tool for predicting purposes, but also for optimizing cable design in terms of magnetic field emissions
Burnout, Resilience, and COVID-19 among Teachers: Predictive Capacity of an Artificial Neural Network
Emotional exhaustion, cynicism, and work inefficiency are three dimensions that define
burnout syndrome among teachers. On another note, resilience can be understood as the ability to
adapt to the environment and overcome adverse situations. In addition, COVID-19 has provided
a threatening environment that has led to the implementation of resilience strategies to struggle
with burnout and cope with the virus. The aim of this study was to analyze the relationship
between resilience, burnout dimensions, and variables associated with COVID-19 through the design
of an artificial neural network architecture. For this purpose, the Maslach Burnout InventoryGeneral Survey (MBI-GS), the Brief Resilience Coping Scale (BRCS), and a questionnaire on stress
towards COVID-19 were administered to 419 teachers from secondary schools in southeastern
Spain (292 females; 69.7%). The results showed that 30.8% suffered from burnout (high emotional
exhaustion, high cynicism, and low professional efficacy) and that 38.7% had a high level of resilience,
with an inverse relationship between both constructs. Likewise, we modelled an ANN able to predict
burnout syndrome among 97.4% of teachers based on its dimensions, resilience, sociodemographic
variables, and the stress generated by COVID-19. Our conclusions shed some light on the efficacy
of relying on artificial intelligence in the educational field to predict the psychological situation of
teachers and take early action
Evaluation of Reliefs’ Properties on Design of Thermoformed Packaging Using Fused Deposition Modelling Moulds
The increased consumption of food requiring thermoformed packaging implies that the
packaging industry demands customized solutions in terms of shapes and sizes to make each
packaging unique. In particular, food industry increasingly requires more transparent packaging,
with greater clarity and a better presentation of the product they contain. However, in turn, the
differentiation of packaging is sought through its geometry and quality, as well as the arrangement of
food inside the packaging. In addition, these types of packaging usually include ribs in the walls to
improve their physical properties. However, these ribs also affect the final aesthetics of the product.
In accordance with this, this research study analyses the mechanical properties of different relief
geometries that can affect not only their aesthetics but also their strength. For this purpose, tensile and
compression tests were carried out using thermoformed PET sheets. The results provide comparative
data on the reliefs studied and show that there are differences in the mechanical properties according
to shape, size and disposition in the package
Influence of irrigation conditions in the germination of plasma treated Nasturtium seeds
Plasma treatments had emerged as a useful technique to improve seed germination. In this work we investigate the influence of different irrigation conditions and plasma treatments on the germination of nasturtium seeds. During plasma treatment, seeds experience a progressive weight loss as a function of treatment time that has been associated to water release, a process that is more pronounced after longer plasma treatment times. Seeds treated for short times (<30 s) are able to germinate more efficiently than untreated specimen under hydric stress (drought conditions), while plasma treatments for longer times (up to 300 s) impaired germination independently on irrigation conditions. Characterization analysis of plasma treated seeds by FTIR-ATR, SEM/EDX and XPS showed that plasma treatment affected the chemical state of pericarp while, simultaneously, induced a considerable increase in the seeds water uptake capacity. The decrease in germination efficiency found after plasma treatment for long times, or for short times under optimum irrigation conditions, has been attributed to that the excess of water accumulated in the pericarp hampers the diffusion up to the embryo of other agents like oxygen which are deemed essential for germination.España FEDER y MINECO MINECO (projects MAT2013-40852-R, MAT2016-79866-R, MINECOCSIC 201560E055)España, RECUPERA 2020 y Junta de Andalucía project P12-2265 M
Custom Design of Packaging through Advanced Technologies: A Case Study Applied to Apples
In the context of food packaging design, customization enhances the value of a product
by meeting consumer needs. Personalization is also linked to adaptation, so the properties of
the packaging can be improved from several points of view: functional, aesthetic, economic and
ecological. Currently, functional and formal properties of packaging are not investigated in depth.
However, the study of both properties is the basis for creating a new concept of personalized and
sustainable product. In accordance with this approach, a conceptual design procedure of packaging
with personalized and adapted geometries based on the digitization of fresh food is proposed in
this work. This study is based on the application of advanced technologies for the design and
development of food packaging, apples in this work, in order to improve the quality of the packaging.
The results obtained show that it is possible to use advanced technologies in the early stages of
product design in order to obtain competitive products adapted to new emerging needs
Sedimentology and stratigraphic architecture of Barremian synrift barrier island–estuarine depositional systems from blended field and drone-derived data
The Lower Cretaceous (Barremian) Camarillas Formation in the Galve Sub-basin of eastern Spain is an exceptionally muddy, synrift, aggradational then retrogradational paralic succession. Deposition within these arid, equatorial paralic systems was strongly controlled by crustal rifting of the Iberia plate linked to the geodynamic evolution of the Atlantic Ocean, the Bay of Biscay and the Tethys Ocean. Although synsedimentary extensional tectonics controlled thickness and facies distributions, the parasequence stacking patterns point to a superimposed high-order allogenic control on the paralic succession. Field data and drone imagery are combined to document changes in sedimentology and three-dimensional stratigraphic architecture of these deposits to interpret changes in depositional environments as this basin filled. Three evolutionary stages are identified: (i) tide-dominated estuary; (ii) mixed-energy estuary, with a well-developed wave-dominated barrier island system; and (iii) barrier island–tidal inlet suite. An exceptional record of back-barrier-island depositional interactions is preserved in this high-subsidence, extensional-basin setting, including deposition of washover fans, flood-tidal deltas and ebb-tidal deltas. Drone-derived imagery facilitates three-dimensional architectural characterization of these complex paralic deposits, including multi-episodic tidal inlets, and correlation of basin scale stratigraphic markers. Spatio-temporal interactions between climate change, sea-level variations and rift-related subsidence generated complex estuarine and barrier island geobodies. The general transgressive trend recorded in the Camarillas Formation correlates well with global eustatic sea-level rise during the Barremian
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