Results overview: Found 3 records in 0.02 seconds.
Articles, 2 records found
Research literature, 1 records found
Articles 2 records found  
1.
93 p, 11.3 MB Towards Oxide Electronics : a Roadmap / Coll Bau, Mariona (Institut de Ciència de Materials de Barcelona) ; Fontcuberta i Griñó, Josep (Institut de Ciència de Materials de Barcelona) ; Althammer, M. (Technische Universität München. Physik-Department) ; Bibes, Manuel (Unité Mixte de Physique) ; Boschker, H. (Max Planck Institute for Solid State Research) ; Calleja, Albert (OXOLUTIA S.L.) ; Cheng, G. (Pittsburgh Quantum Institute) ; Cuoco, M. (Università di Salerno) ; Dittmann, R. (Peter Grünberg Institut) ; Dkhil, B. (Université Paris-Saclay) ; El Baggari, I. (Cornell University) ; Fanciulli, M. (University of Milano Bicocca. Department of Materials Science) ; Fina Martínez, Ignasi (Institut Català de Nanociència i Nanotecnologia) ; Fortunato, E. (CEMOP/UNINOVA) ; Frontera, Carlos (Institut de Ciència de Materials de Barcelona) ; Fujita, S. (Kyoto University) ; Garcia, V. (Unité Mixte de Physique) ; Goennenwein, S.T.B. (Technische Universität Dresden) ; Granqvist, C.G. (Upp sala University) ; Grollier, J. (Unité Mixte de Physique) ; Gross, R. (Nanosystems Initiative Munich (NIM)) ; Hagfeldt, Anders (Ecole Polytechnique Fédérale de Lausanne) ; Herranz Casabona, Gervasi (Institut de Ciència de Materials de Barcelona) ; Hono, K. (National Institute for Materials Science) ; Houwman, E. (University of Twente) ; Huijben, M. (University of Twente) ; Kalaboukhov, A. (MC2. Chalmers University of Technology) ; Keeble, D.J. (University of Dundee) ; Koster, G. (University of Twente) ; Kourkoutis, L.F. (Cornell University) ; Levy, J. (Pittsburgh Quantum Institute) ; Lira Cantú, Mónica (Institut Català de Nanociència i Nanotecnologia) ; MacManus-Driscoll, J.L. (University of Cambridge. Department of Materials Science and Metallurgy) ; Mannhart, J. (Max Planck Institute for Solid State Research) ; Martins, R. (MDM Laboratory) ; Menzel, S. (Pittsburgh Quantum Institute) ; Mikolajick, T. (Chair of Nanoelectronic Materials) ; Napari, M. (University of Cambridge. Department of Materials Science and Metallurgy) ; Nguyen, M.D. (University of Twente) ; Niklasson, G. (Upp sala University) ; Paillard, C. (University of Arkansas. Physics Department) ; Panigrahi, S. (CEMOP/UNINOVA) ; Rijnders, G. (University of Twente) ; Sánchez Barrera, Florencio (Institut de Ciència de Materials de Barcelona) ; Sanchis, P. (Universitat Politècnica de València) ; Sanna, S. (Technical University of Denmark. Department of Energy Storage and Conversion) ; Schlom, D.G. (Cornell University. Department of Material Science and Engineering) ; Schroeder, U. (NaMLab gGmbH) ; Shen, K.M. (Cornell University. Department of Physics) ; Siemon, A. (Institut für Werkstoffe der Elektrotechnik) ; Spreitzer, M. (Jožef Stefan Institute) ; Sukegawa, H. (Research Center for Magnetic and Spintronic Materials) ; Tamayo, R. (OXOLUTIA S.L.) ; van den Brink, J. (Institute for Theoretical Solid State Physics) ; Pryds, N. (Technical University of Denmark. Department of Energy Storage and Conversion) ; Granozio, F.M. (CNR-SPIN. Naples Unit)
At the end of a rush lasting over half a century, in which CMOS technology has been experiencing a constant and breathtaking increase of device speed and density, Moore's law is approaching the insurmountable barrier given by the ultimate atomic nature of matter. [...]
2019 - 10.1016/j.apsusc.2019.03.312
Applied surface science, Vol. 482 (July 2019) , p. 1-93  
2.
8 p, 234.1 KB El espacio y lo político : una geografía de la legitimidad social / Lévy, Jacques
1987
Documents d'anàlisi geogràfica, N. 11 (1987) p. 5-12  

Research literature 1 records found  
1.
146 p, 6.6 MB Beyond the structure of SAT formulas / Giráldez Crú, Jesús ; Levy Díaz, Jordi, dir. ; Gonzàlez i Sabaté, Jordi (Universitat Autònoma de Barcelona. Departament de Ciències de la Computació) ; Universitat Autònoma de Barcelona. Departament de Ciències de la Computació
Hoy en día, muchos problemas del mundo real son codificados en instancias SAT y resueltos eficientemente por modernos SAT solvers. Estos solvers, usualmente conocidos como Conflict-Driven Clause Learning (CDCL: Aprendizaje de cláusulas guiado por conflictos) SAT solvers, incluyen una variedad de sofisticadas técnicas, como el aprendizaje de cláusulas, estructuras de datos perezosas, heurísticas de ramificación adaptativas basadas en los conflictos, o reinicios aleatorios, entre otros. [...]
Nowadays, many real-world problems are encoded into SAT instances and efficiently solved by modern SAT solvers. These solvers, usually known as Conflict-Driven Clause Learning (CDCL) SAT solvers, include a variety of sophisticated techniques, such as clause learning, lazy data structures, conflict-based adaptive branching heuristics, or random restarts, among others. [...]

[Barcelona] : Universitat Autònoma de Barcelona, 2016  

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1 Lévy, Jacques
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