The candidate will work on the design and operation of the so-called “trusted nodes” of a quantum communications network as well as on associated topics in the integration of quantum communications in secure communications networks and infrastructures.
The candidate will work on the design and operation of large-scale, flexible quantum networks within the “Software Defined Networks” paradigm.
There will be, among other events, a welcome, institutional inauguration, presentations by groups and centers from all over the nation, shortened talks, poster presentations, managers’ meeting, networking cocktails, and during the industry day, talks with startups and established industries to end with a closing session this same day.
The scholarship will be framed mainly in the research project DISCRETION. The candidate will work on the integration of quantum key distribution systems and encryptors in production facilities, following new network paradigms such as software-defined networks and virtualization of network functions.
Aiming to establish a group of CFD experts at UPM supporting industrial R&D in numerical simulation, a series of work activities have been defined between the company ITP (Industria de Turbopropulsores) and the UPMNumath group (Numerical Mathematics) of the UPM (Polytechnic University of Madrid).
The candidate will work in the integration on Quantum Key Distribution systems and encryptors into production facilities following novel networks paradigm such as Software-Defined Networking and Network Function Virtualization.
The work will primarily be part of the research project POLIIICE, a security-related project recently awarded to Universidad Politécnica de Madrid, but will also be…
The work will be part of the research project on quantum communications recently awarded by the Comunidad de Madrid and Ministerio de Ciencia e Innovación…
The work will mainly be part of the research project DISCRETION, a quantum communications project recently awarded to Universidad Politécnica de Madrid, but also other…
The work will mainly be part of the research project DISCRETION, a quantum communications project recently awarded to Universidad Politécnica de Madrid, but also other…
The work will mainly be part of the research project DISCRETION, a quantum communications project recently awarded to Universidad Politécnica de Madrid, but also other…
The opening of the application period for the second call for the Programa Propio 2022 is announced.
Line of research: development of data analysis tools, generation of models for structural calculation.
Date and place: June, 11th to 14th , 2022. Universidad Rey Juan Carlos. (Campus de Móstoles Calle Tulipan s/n 28933, Móstoles, Madrid) . Laboratorios Polivalentes…
In this short course, we review the subcell limiting techniques, the parallelization strategy, and the Adaptive Mesh Refinement (AMR) technology implemented in the open-source three-dimensional high-order discontinuous Galerkin code FLUXO. FLUXO implements the Discontinuous Galerkin Spectral Element Method (DGSEM) for non-linear conservative and non-conservative systems.
This Friday, March 18th, the presentation of the MAD-Q project of the
“Plan Complementario de Comunicaciones Cuánticas” took place, of which Vicente Martín (Director of the CCS and professor at the Universidad Politécnica Madrid) is the scientific coordinator. Various authorities attended the event, including the Minister of Science and Innovation of Spain, Diana Morant.
Pablo Salgado, PhD in Aerospace Engineering from the UPM, has been awarded ex aequo in the category of Experimental and Technological Sciences.
Throughout the week, professors from different universities (UPM, UNED, Universidad de Oviedo, UCM, Oxford University), and several of them members of the CCS, will provide talks throughout the morning.
Describing our first attempt to produce a real quantum-computer simulation of an astrophysical problem of interest to our community, namely the integration of the Schroedinger-Poisson equations, that are relevant for certain kind of Dark Matter and tend to the Vlasov-Poisson equations in the limit of infinite particle mass.
This talk presents evidence of new scaling laws found in the human voice, originating at temporal scales below the phoneme, where the underlying mechanisms are not cognitive but only rely on the physiology of voice production.
The project SSEMID: Stability and Sensitivity Methods for Industrial Design received nearly 4 million euros from the Horizon 2020 programme and is embedded within the…