Sustainable Higher Education Development through Technology Enhanced Learning

[EN] Higher education is incorporating Information and Communication Technology (ICT) at a fast rate for different purposes. Scientific papers include within the concept of Technology Enhanced Learning (TEL) the myriad applications of information and communication technology, e-resources, and pedagogical approaches to the development of education. TEL¿s specific application to higher education is especially relevant for countries under rapid development for providing quick and sustainable access to quality education (UN sustainable development goal 4). This paper presents the research results of an online pedagogical experience in collaborative academic research for analyzing good practice in TEL-supported higher education development. The results are obtained through a pilot implementation providing curated data on TEL competency¿s development of faculty skills and analysis of developing sustainable higher education degrees through TEL cooperation, for capacity building. Given the increased volume and complexity of the knowledge to be delivered, and the exponential growth of the need for skilled workers in emerging economies, online training is the most effective way of delivering a sustainable higher education. The results of the PETRA Erasmus+ capacity-building project provides evidence of a successful implementation of a TEL-supported methodology for collaborative faculty development focused on future online degrees built collaboratively and applied locally.This research was co-funded by the European Commission through the Erasmus+ KA2 project "Promoting Excellence in Teaching and Learning in Azerbaijani Universities (PETRA)" project number 573630-EPP-1-2016-1-ES-EPPKA2-CBHE-JP.Orozco-Messana, J.; Martínez-Rubio, J.; Gonzálvez-Pons, AM. (2020). Sustainable Higher Education Development through Technology Enhanced Learning. Sustainability. 12(9):1-13. https://doi.org/10.3390/su12093600S113129Abdullah, F., & Ward, R. (2016). Developing a General Extended Technology Acceptance Model for E-Learning (GETAMEL) by analysing commonly used external factors. Computers in Human Behavior, 56, 238-256. doi:10.1016/j.chb.2015.11.036Becker, H. J., & Ravitz, J. (1999). The Influence of Computer and Internet Use on Teachers’ Pedagogical Practices and Perceptions. Journal of Research on Computing in Education, 31(4), 356-384. doi:10.1080/08886504.1999.10782260Mumford, S., & Dikilitaş, K. (2020). Pre-service language teachers reflection development through online interaction in a hybrid learning course. Computers & Education, 144, 103706. doi:10.1016/j.compedu.2019.103706Lee, D., Watson, S. L., & Watson, W. R. (2020). The Relationships Between Self-Efficacy, Task Value, and Self-Regulated Learning Strategies in Massive Open Online Courses. The International Review of Research in Open and Distributed Learning, 21(1), 23-39. doi:10.19173/irrodl.v20i5.4389Passey, D. (2019). Technology‐enhanced learning: Rethinking the term, the concept and its theoretical background. British Journal of Educational Technology, 50(3), 972-986. doi:10.1111/bjet.12783Lai, Y.-C., & Peng, L.-H. (2019). Effective Teaching and Activities of Excellent Teachers for the Sustainable Development of Higher Design Education. Sustainability, 12(1), 28. doi:10.3390/su12010028Lee, S., Lee, H., & Kim, T. (2018). A Study on the Instructor Role in Dealing with Mixed Contents: How It Affects Learner Satisfaction and Retention in e-Learning. Sustainability, 10(3), 850. doi:10.3390/su10030850“Continuous Improvement in Teaching Strategies through Lean Principles”. Teaching & Learning Symposium, University of Southern Indiana http://hdl.handle.net/20.500.12419/455The DeLone and McLean Model of Information Systems Success: A Ten-Year Update. (2003). Journal of Management Information Systems, 19(4), 9-30. doi:10.1080/07421222.2003.11045748Goodman, J., Melkers, J., & Pallais, A. (2019). Can Online Delivery Increase Access to Education? Journal of Labor Economics, 37(1), 1-34. doi:10.1086/698895Alexander, J., Barcellona, M., McLachlan, S., & Sackley, C. (2019). Technology-enhanced learning in physiotherapy education: Student satisfaction and knowledge acquisition of entry-level students in the United Kingdom. Research in Learning Technology, 27(0). doi:10.25304/rlt.v27.2073How Can Adaptive Platforms Improve Student Learning Outcomes? A Case Study of Open Educational Resources and Adaptive Learning Platforms https://ssrn.com/abstract=3478134Sun, A., & Chen, X. (2016). Online Education and Its Effective Practice: A Research Review. Journal of Information Technology Education: Research, 15, 157-190. doi:10.28945/3502EU Commission https://ec.europa.eu/education/education-in-the-eu/digital-education-action-plan_enEssence Project https://husite.nl/essence/Orozco-Messana, J., de la Poza-Plaza, E., & Calabuig-Moreno, R. (2020). Experiences in Transdisciplinary Education for the Sustainable Development of the Built Environment, the ISAlab Workshop. Sustainability, 12(3), 1143. doi:10.3390/su12031143Kurilovas, E., & Kubilinskiene, S. (2020). Lithuanian case study on evaluating suitability, acceptance and use of IT tools by students – An example of applying Technology Enhanced Learning Research methods in Higher Education. Computers in Human Behavior, 107, 106274. doi:10.1016/j.chb.2020.10627

Análisis comparativo del proteoma de una cepa industrial de Saracchormyces

Comunicaciones a congreso

POWAR: Power-Aware Routing in HPC Networks with On/Off Links

[EN] In order to save energy in HPC interconnection networks, one usual proposal is to switch idle links into a low-power mode after a certain time without any transmission, as IEEE Energy Efficient Ethernet standard proposes. Extending the low-power mode mechanism, we propose POWer-Aware Routing (POWAR), a simple power-aware routing and selection function for fat-tree and torus networks. POWAR adapts the amount of network links that can be used, taking into account the network load, and obtaining great energy savings in the network (55%-65%) and the entire system (9%-10%) with negligible performance overhead.This work has been supported by the Spanish MINECO and European Commission (FEDER funds) under project TIN2015-66972-C5-1-R. Francisco J. Andujar has been partially funded by the Spanish MICINN and by the ERDF program of the European Union: PCAS Project (TIN2017-88614-R), CAPAP-H6 (TIN2016-81840-REDT), and Junta de Castilla y Leon FEDER Grant VA082P17 (PROPHET Project).Andújar-Muñoz, FJ.; Coll, S.; Alonso Díaz, M.; López Rodríguez, PJ.; Martínez-Rubio, J. (2019). POWAR: Power-Aware Routing in HPC Networks with On/Off Links. ACM Transactions on Architecture and Code Optimization. 15(4):1-22. https://doi.org/10.1145/3293445S122154Abts, D., Marty, M. R., Wells, P. M., Klausler, P., & Liu, H. (2010). Energy proportional datacenter networks. Proceedings of the 37th annual international symposium on Computer architecture - ISCA ’10. doi:10.1145/1815961.1816004Adiga, N. R., Blumrich, M. A., Chen, D., Coteus, P., Gara, A., Giampapa, M. E., … Vranas, P. (2005). Blue Gene/L torus interconnection network. IBM Journal of Research and Development, 49(2.3), 265-276. doi:10.1147/rd.492.0265M. Alonso S. Coll J. M. Martínez V. Santonja and P. López. 2015. Power consumption management in fat-tree interconnection networks. Parallel Comput. 48 C (Oct. 2015) 59--80. 10.1016/j.parco.2015.03.007 M. Alonso S. Coll J. M. Martínez V. Santonja and P. López. 2015. Power consumption management in fat-tree interconnection networks. Parallel Comput. 48 C (Oct. 2015) 59--80. 10.1016/j.parco.2015.03.007Marina Alonso, Coll, S., Martínez, J.-M., Santonja, V., López, P., & Duato, J. (2010). Power saving in regular interconnection networks. Parallel Computing, 36(12), 696-712. doi:10.1016/j.parco.2010.08.003Bob Alverson Edwin Froese Larry Kaplan and Duncan Roweth. 2012. Cray XC series network. Cray Inc. White Paper WP-Aries01-1112 (2012). Bob Alverson Edwin Froese Larry Kaplan and Duncan Roweth. 2012. Cray XC series network. Cray Inc. White Paper WP-Aries01-1112 (2012).Anderson, T. E., Owicki, S. S., Saxe, J. B., & Thacker, C. P. (1993). High-speed switch scheduling for local-area networks. ACM Transactions on Computer Systems, 11(4), 319-352. doi:10.1145/161541.161736Andujar, F. J., Villar, J. A., Sanchez, J. L., Alfaro, F. J., & Escudero-Sahuquillo, J. (2015). VEF Traces: A Framework for Modelling MPI Traffic in Interconnection Network Simulators. 2015 IEEE International Conference on Cluster Computing. doi:10.1109/cluster.2015.141Barroso, L. A., & Hölzle, U. (2007). The Case for Energy-Proportional Computing. Computer, 40(12), 33-37. doi:10.1109/mc.2007.443Camacho, J., & Flich, J. (2011). HPC-Mesh: A Homogeneous Parallel Concentrated Mesh for Fault-Tolerance and Energy Savings. 2011 ACM/IEEE Seventh Symposium on Architectures for Networking and Communications Systems. doi:10.1109/ancs.2011.17Chen, D., Parker, J. J., Eisley, N. A., Heidelberger, P., Senger, R. M., Sugawara, Y., … Steinmacher-Burow, B. (2011). The IBM Blue Gene/Q interconnection network and message unit. Proceedings of 2011 International Conference for High Performance Computing, Networking, Storage and Analysis on - SC ’11. doi:10.1145/2063384.2063419Chen, L., & Pinkston, T. M. (2012). NoRD: Node-Router Decoupling for Effective Power-gating of On-Chip Routers. 2012 45th Annual IEEE/ACM International Symposium on Microarchitecture. doi:10.1109/micro.2012.33Christensen, K., Reviriego, P., Nordman, B., Bennett, M., Mostowfi, M., & Maestro, J. (2010). IEEE 802.3az: the road to energy efficient ethernet. IEEE Communications Magazine, 48(11), 50-56. doi:10.1109/mcom.2010.5621967Dally, & Seitz. (1987). Deadlock-Free Message Routing in Multiprocessor Interconnection Networks. IEEE Transactions on Computers, C-36(5), 547-553. doi:10.1109/tc.1987.1676939Das, R., Narayanasamy, S., Satpathy, S. K., & Dreslinski, R. G. (2013). Catnap. Proceedings of the 40th Annual International Symposium on Computer Architecture - ISCA ’13. doi:10.1145/2485922.2485950Derradji, S., Palfer-Sollier, T., Panziera, J.-P., Poudes, A., & Atos, F. W. (2015). The BXI Interconnect Architecture. 2015 IEEE 23rd Annual Symposium on High-Performance Interconnects. doi:10.1109/hoti.2015.15Jack Dongarra Hans W. Meuer and Erich Strohmaier. 2018. TOP500 Supercomputer Sites. Retrieved from https://www.top500.org. Jack Dongarra Hans W. Meuer and Erich Strohmaier. 2018. TOP500 Supercomputer Sites. Retrieved from https://www.top500.org.Duato, J. (1993). A new theory of deadlock-free adaptive routing in wormhole networks. IEEE Transactions on Parallel and Distributed Systems, 4(12), 1320-1331. doi:10.1109/71.250114José Duato Sudhakar Yalamanchili and Lionel Ni. 2003. Interconnection Networks. An Engineering Approach. Morgan Kaufmann Publishers Inc. San Francisco CA. José Duato Sudhakar Yalamanchili and Lionel Ni. 2003. Interconnection Networks. An Engineering Approach. Morgan Kaufmann Publishers Inc. San Francisco CA.GALGO 2017. GALGO—Albacete Research Institute of Informatics Supercomputer Center homepage. Retrieved from http://www.i3a.uclm.es/galgo. GALGO 2017. GALGO—Albacete Research Institute of Informatics Supercomputer Center homepage. Retrieved from http://www.i3a.uclm.es/galgo.Greenberg, A., Hamilton, J., Maltz, D. A., & Patel, P. (2008). The cost of a cloud. ACM SIGCOMM Computer Communication Review, 39(1), 68-73. doi:10.1145/1496091.1496103HPCC {n.d.}. HPC Challenge Benchmark. Retrieved from http://icl.cs.utk.edu/hpcc/index.html. HPCC {n.d.}. HPC Challenge Benchmark. Retrieved from http://icl.cs.utk.edu/hpcc/index.html.Hluchyj, M. G., & Karol, M. J. (1988). Queueing in high-performance packet switching. IEEE Journal on Selected Areas in Communications, 6(9), 1587-1597. doi:10.1109/49.12886Koibuchi, M., Otsuka, T., Hiroki Matsutani, & Amano, H. (2009). An on/off link activation method for low-power ethernet in PC clusters. 2009 IEEE International Symposium on Parallel & Distributed Processing. doi:10.1109/ipdps.2009.5161069Phillips, J. C., Braun, R., Wang, W., Gumbart, J., Tajkhorshid, E., Villa, E., … Schulten, K. (2005). Scalable molecular dynamics with NAMD. Journal of Computational Chemistry, 26(16), 1781-1802. doi:10.1002/jcc.20289Pronk, S., Páll, S., Schulz, R., Larsson, P., Bjelkmar, P., Apostolov, R., … Lindahl, E. (2013). GROMACS 4.5: a high-throughput and highly parallel open source molecular simulation toolkit. Bioinformatics, 29(7), 845-854. doi:10.1093/bioinformatics/btt055Reviriego, P., Hernandez, J., Larrabeiti, D., & Maestro, J. (2009). Performance evaluation of energy efficient ethernet. IEEE Communications Letters, 13(9), 697-699. doi:10.1109/lcomm.2009.090880K. P. Saravanan and P. Carpenter. 2018. PerfBound: Conserving energy with bounded overheads in on/off-based HPC interconnects. IEEE Trans. Comput. (2018) 1--1. 10.1109/TC.2018.2790394 K. P. Saravanan and P. Carpenter. 2018. PerfBound: Conserving energy with bounded overheads in on/off-based HPC interconnects. IEEE Trans. Comput. (2018) 1--1. 10.1109/TC.2018.2790394Saravanan, K. P., Carpenter, P. M., & Ramirez, A. (2013). Power/performance evaluation of energy efficient Ethernet (EEE) for High Performance Computing. 2013 IEEE International Symposium on Performance Analysis of Systems and Software (ISPASS). doi:10.1109/ispass.2013.6557171Soteriou, V., & Li-Shiuan Peh. (s. f.). Dynamic power management for power optimization of interconnection networks using on/off links. 11th Symposium on High Performance Interconnects, 2003. Proceedings. doi:10.1109/conect.2003.1231472Totoni, E., Jain, N., & Kale, L. V. (2013). Toward Runtime Power Management of Exascale Networks by on/off Control of Links. 2013 IEEE International Symposium on Parallel & Distributed Processing, Workshops and Phd Forum. doi:10.1109/ipdpsw.2013.191VEF 2017. 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Energy efficient torus networks with on/off links

[EN] Future exascale computing systems will require energy and performance efficient interconnection networks to respond to the high data movement demands of new applications, such as those coming from big-data and artificial intelligence areas. The network structure plays a major role in the overall interconnect performance, for this reason torus is a common topology used in the current largest supercomputers. There are several proposals to improve energy efficiency of interconnection networks. However, few works combine both energy and performance, and sometimes they are treated as opposed issues. In this paper, we try to determine which torus network configuration offers the best performance/energy ratio when high-radix switches are used to build the interconnect system. The performance/energy evaluation has been performed by trace-driven simulation under realistic scenarios, where several mixes of scientific applications share a supercomputer system and are scheduled to be executed with the available resources at each moment.This work has been supported by the Spanish MINECO and European Commission (FEDER funds) under project TIN2015-66972-05-1-R and project TIN2015-66972-05-2-R. Francisco J. Andujar is also funded by the Spanish MINECO under a Juan de la Cierva grant FJCI-2015-26080.Andújar, FJ.; Coll, S.; Alonso Díaz, M.; Martínez-Rubio, J.; López Rodríguez, PJ.; Sánchez, JL.; Alfaro, FJ.... (2019). Energy efficient torus networks with on/off links. Journal of Parallel and Distributed Computing. 130:37-49. https://doi.org/10.1016/j.jpdc.2019.03.015S374913

Energy efficient HPC network topologies with on/off links

Producción CientíficaEnergy efficiency is a must in today HPC systems. To achieve this goal, a holistic design based on the use of power-aware components should be performed. One of the key components of an HPC system is the high-speed interconnect. In this paper, we compare and evaluate several design options for the interconnection network of an HPC system, including torus, fat-trees and dragonflies. State of the art low power modes are also used in the interconnection networks. The paper does not only consider energy efficiency at the interconnection network level but also at the system as a whole. The analysis is performed by using a simple yet realistic power model of the system. The model has been adjusted using actual power consumption values measured on a real system. Using this model, realistic multi-job trace-based workloads have been used, obtaining the execution time and energy consumed. The results are presented to ease choosing a system, depending on which parameter, performance or energy consumption, receives the most importance.Ministerio de Economía, Industria y Competitividad (projects PID2019-105903RB-100 and PID2021-123627OB)Junta de Comunidades de Castilla-La Mancha (project SBPLY/21/180501/ 000248

Set the Controls for the Heart of the Maths. The Protective Factor of Resilience in the Face of Mathematical Anxiety

According to the latest PISA report, the level of mathematical competence of Spanish students is far behind the rest of the OECD countries. One of the main reasons for this is the animosity that students feel towards this subject. Therefore, this study aims to analyze the processes of overcoming the vicissitudes of mathematical anxiety with respect to motivation, metacognitive strategies and academic performance. This study involved 1742 high school students with an average age of 14.87. To analyze the variables of the study, descriptive statistical analyses and a model of structural equations were carried out. The results revealed a negative correlation between resilience and anxiety. In turn, resilience was positively related to motivation and metacognitive strategies, while anxiety was negatively related to motivation and metacognitive strategies. Motivation was positively related to metacognitive strategies and academic performance; finally, metacognitive strategies were positively related to academic performance

Clinical and molecular study of the extracellular matrix protein 1 gene in a spanish family with lipoid proteinosis

[Background] Lipoid proteinosis (LP) is a rare autosomal recessive disorder characterized by a hoarse voice, variable scarring, and infiltration of the skin and mucosa. This disease is associated with mutations of the gene encoding extracellular matrix protein 1 (ECM1). [Case Report]This was a clinical and molecular study of a new case of LP with a severe phenotype. A 35-year-old female born to nonconsanguineous parents developed dermatological and extracutaneous symptoms in her 9th month of life. The neurological abnormalities of the disease began to appear at the age of 19 years. Computed tomography revealed cranial calcifications. [Conclusions]The diagnosis of LP was confirmed by histopathological findings and direct sequencing of ECM1. A new homozygous nonsense mutation was identified in exon 7 of ECM1, c.1076G>A (p.Trp359*). This mutation was not detected in 106 chromosomes of healthy individuals with a similar demographic origin. Microsatellite markers around ECM1 were used to construct the haplotype in both the parents and the patient. Reports on genotype-phenotype correlations in LP point to a milder phenotype in carriers of missense mutations in the Ecm1a isoform, whereas mutations in the Ecm1b isoform are thought to be associated with more severe phenotypes. The present findings in a Spanish patient carrying a truncating mutation in exon 7 revealed complete dermatological and neurological manifestations. © 2014 Korean Neurological Association.The authors thank the patient and her family for their participation, and the financial support of grants from MICINN (no. SAF2007-60508) and Consejería de Ciencia Junta de Andalucía (no. CVI02790).Peer Reviewe