Call for Participation: International Artificial Intelligence Summer School – IAISS 2025, Sept 21-25, Riva del Sole Resort & SPA @ Tuscany * Registration: by April 23 *

April 9th, 2025 Daniela Lopez de Luise

IAISS2025, A Residential Summer School in AI & Generative AI for Science and Engineering

IAISS 2025 is a full-immersion 5-day Summer School in Tuscany on cutting-edge advances in AI and Generative AI with lectures delivered by world-renowned experts. 

Riva del Sole Resort & SPA @ Tuscany, Italy, Sept 21-25, 2025

https://2025.iaiss.cc
iaiss@icas.cc

REGISTRATION: by April 23 (AoE)
https://2025.iaiss.cc/registration/
Oral Presentation Submission Deadline: by April 23 (AoE)

Applicant *may* submit (during the Registration Process) a research abstract (max 2 pages; any format) for presentation. School directors and the scientific committee will review the abstracts and will recommend for poster and/or short talk.
Abstract must be submitted by April 23 during the registration process.

LECTURERS:
Each Lecturer will hold up to four lectures on one or more research topics.

Yuki Asano, University of Technology Nuremberg, Germany
Pierre Baldi, University of California, Irvine, CA,USA
Lucas Beyer, OpenAI, Zürich, Switzerland
Wessel Bruinsma, Microsoft Research Amsterdam, The Netherlands
Sam Buchanan, Toyota Technological Institute at Chicago, USA
Floris Geerts, University of Antwerp, Belgium
Sven Giesselbach, Fraunhofer Institute – IAIS, Germany & Telecom Systems
Chin-Wei Huang, Microsoft Amsterdam, The Netherlands  
Vicky Kalogeiton,  Ecole Polytechnique Paris, France
Thomas Kipf, Google DeepMind, USA
Yi Ma,  University of California, Berkeley, USA
Abigail See, Google DeepMind, London, UK
Michal Valko, Meta Paris, France    

More Speakers TBA

TUTORIAL SPEAKERS:
Druv Pai, University of California, Berkeley, USA
Yaodong Yu, University of California, Berkeley, USA
Peng Wang, University of Michigan, Ann Arbor, USA

https://2025.iaiss.cc/lecturers/

https://2025.iaiss.cc/lectures/

VENUE:
https://2025.iaiss.cc/venue/
Riva del Sole Resort & SPA
Località Riva del Sole‚ Castiglione della Pescaia (Grosseto)
CAP 58043‚ Tuscany‚ Italy
p: +39-0564-928111
e: booking.events@rivadelsole.it
w: https://www.rivadelsole.it/en/

REGISTRATION:  https://2025.iaiss.cc/venue/

CERTIFICATE & 8 ECTS:
The International Artificial Intelligence Summer School – IAISS 2025 is a full-immersion five-day Summer School at the Riva del Sole Resort & SPA (Castiglione della Pescaia – Grosseto  – Tuscany, Italy) on cutting-edge advances in AI and Generative AI with lectures delivered by world-renowned experts. The Summer School provides a stimulating environment for PhD students, Post-Docs,  junior academics (only up to assistant professors), early career researchers,  and industry leaders (and highly motivated, promising and brilliant Master students / BSc students). Participants will also have the chance to present their results with talks, and to interact with their colleagues, in a convivial, professional and productive environment.

PhD students, PostDocs, Industry Practitioners and Junior Academics (only up to assistant professors)  will be typical profiles of the IAISS attendants. The Summer School will involve a total of 36–40 hours of lectures, according to the academic system the final achievement will be equivalent to 8 ECTS points for the PhD Students (and some strongly motivated Master Student – BSc Student) attending the Summer School.

Language: English.

To participate in the IAISS 2025, all attendants must

(1/2) register for the school (by April 23, 2025) and

(2/2) book accommodation at the school venue, “Riva del Sole Resort & SPA” (by July 23, 2025); all attendants must stay at the “Riva del Sole Resort & SPA”.

Once accommodation has been booked at “Riva del Sole Resort & SPA“, the participant must send this information (including the Booking Number) to the IAISS organizing committee (iaiss@icas.cc).

IAISS is a residential school, so all lecturers and participants must reside in the same Hotel (Riva del Sole Resort & SPA). No exceptions are made.
 
For privacy reasons, the Hotel cannot match people. If you have someone to share the apartment with, please send to the Hotel ( booking.events@rivadelsole.it ) the name, surname and email address. Otherwise the solution is to book an apartment in single use.
IAISS is organized as a non-profit scientific event.
 
Please note that only IAISS registered participants can book a room (in hotel or apartment) at the Riva del Sole Resort & SPA with the accommodation form attached in the registration email and with the IAISS Discounted Rates. The Booking Office of the Riva del Sole Resort & SPA will  verify the names of the participants and the corresponding registration number to confirm the booking.

Anyone interested in participating in IAISS 2025 should register as soon as possible:

https://2025.iaiss.cc/registration/

See you in Riva del Sole in September!
         IAISS 2025 Organizing Committees.  

https://2025.iaiss.cc
iaiss@icas.cc

Obviously, this is only a Call for Participation, to have complete and updated information we recommend you access the relevant website: https://2025.iaiss.cc
the News Section: https://2025.iaiss.cc/category/news/
and the FAQ: https://2025.iaiss.cc/faq/

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IEEE PICom 2025 – Call For Papers

April 9th, 2025 Daniela Lopez de Luise

The 23rd IEEE International Conference on
Pervasive Intelligence and Computing
(PICom 2025)

https://cyber-science.org/2025/picom/

 2025 IEEE CyberSciTech / PICom / DASC / CBDCom Co-located Conferences
(In-Presence/Virtual)
http://cyber-science.org/2025/

Premier Hotel, Hakodate City, Hokkaido, Japan
October 21-24, 2025

Over the last fifty years, computational intelligence has evolved from artificial intelligence, nature-inspired computing, and social-oriented technology to cyber-physical integrated ubiquitous intelligence towards Pervasive Intelligence (PI). The IEEE International Conference on Pervasive Intelligence and Computing is intended to cover all kinds of these intelligent paradigms as well as their applications in various pervasive computing domains. PICom 2025 is the conference on Pervasive Intelligence and Computing, previously held as PCC (Las Vegas, USA, 2003 and 2004), PSC (Las Vegas, USA, 2005), PCAC (Vienna, Austria, 2006, and Niagara Falls, Canada, 2007), IPC-2007 (Jeju, Korea, December 2007), IPC-2008 (Sydney, Australia, December 2008), and since 2009 as the name PICom. It aims to bring together computer scientists and engineers, providing a platform for vibrant discussions and exchanges on experimental and theoretical results, ongoing work, cutting-edge designs, and innovative test-environments or testbeds, while also delving into the latest advancements and novel trends in Intelligence and Machine Learning within the realms of Pervasive Intelligence and Computing.

Important Dates

Workshop/Special Session Proposal Due: 20 May 2025
Regular Paper Due: 10 Jun 2025
WiP/Poster/WS/SS Paper Due: 20 Jun 2025
LBI Paper Due: 30 Jun 2025
Authors Notification: 30 Jul 2025
Paper Registration Due: 05 Sep 2025
Camera-ready Submission: 12 Sep 2025

Submission Instructions

Authors are invited to submit their original research work that has not previously been submitted or published in any other venue. Regular, work-in-progress (WiP), and workshop/special session papers need to be submitted via EDAS (link available soon) in IEEE CS Proceedings format. IEEE formatting info: http://www.ieee.org/conferences_events/conferences/publishing/templates.html
All the accepted papers will be published by IEEE in the Conference Proceedings (IEEE-DL and EI indexed). Best Paper Awards will be presented to high-quality papers. Some papers, originally submitted as full papers and based on review results, can be accepted as short papers or poster papers. In such cases, the authors will need to reduce the number of pages of the paper accordingly when preparing the camera-ready version. Authors of accepted poster papers will be required (i) to prepare and submit the camera-ready version of the paper for inclusion in the conference proceedings and (ii) to realize the poster (format will be announced later) for its presentation at the conference. 
At least one of the authors of any accepted paper is requested to register and present the paper at the conference.
Full Papers: 6-8 pages – WiP/WS/SS/Short Papers: 4-6 pages –
Poster Papers: 2-4 pages – Late-Breaking Innovation (LBI) Papers: 4-8 pages

Tracks and Topics

Track 1: Next-Gen Pervasive AI

  • GenAI for wireless sensing
  • Machine-to-machine GenAI
  • Generative IoT
  • GenAI for semantic communications
  • Multi-agent network powered by GenAI
  • Big Data and Smart Data
  • Brain-inspired Computing
  • Mobile Data Mining
  • Ubiquitous Data Mining

Track 2: Intelligent Networks, Middleware and Applications

  • Pervasive Networks/Communications
  • 5G networks and Technologies
  • AI/ML for smart wireless networks
  • AI and machine learning-based applications for ad hoc networks
  • Cooperative and cognitive communication
  • Middleware for the IoT
  • Adaptive Middleware for Pervasive Systems
  • Context-aware applications
  • Intelligent/Smart IoT
  • Programming Abstractions for IoT

Track 3: Pervasive Computing and Activity/Affect Recognition

  • Crowdsourcing and Social Computing
  • Collective Intelligence
  • Agent-based Computing
  • Pervasive Devices and RFIDs
  • Wearable Devices and Applications
  • Activity Recognition
  • Intelligent Social Networking
  • Pervasive Technologies for ITS
  • HCI for Pervasive Computing

Track 4: Next Gen Smart Environments

  • Smart grid, healthcare, transportation applications
  • Wearable and human-centric devices and networks
  • Device Virtualization
  • Intelligent Cloud Computing
  • Services for Pervasive Computing
  • Smart Cities and Smart Homes
  • Privacy, Security and Trust in Smart Environments
  • Autonomous Pervasive Systems
  • Autonomous IoT
  • Digital Twins

Track 5: Edge Intelligence Applications

  • ML for resource allocation at the Edge
  • NFV-Edge
  • 5G-Edge
  • Edge-assisted IoT
  • Integration of Edge Computing and Blockchain
  • Edge-Cloud Continuum
  • Edge AI

Track 6: Work-in-Progress (WiP) and Late Breaking Innovation (LBI)

  • The track covers all the topics, but it is aimed at either papers that have an original but not fully validated proposal (WiP) or present a breakthrough, a new vision, or an out-of-the-box idea on the field to be discussed at the conference (LBI). 

Organizing Committee

Honorary Chairs
Albert Zomaya, The University of Sydney (Australia)
Ming Hou, Defence Research & Development Canada (Canada)
Tiago Falk, University of Quebec (Canada)

General Chairs
Flavia Delicato, Fluminense Federal University (Brazil)
Antonio Guerrieri, ICAR-CNR (Italy)
Kenichi Kourai, Kyushu Institute of Technology (Japan)

General Executive Chairs
Bernady O. Apduhan, Kyushu Sangyo University (Japan)
Xiaohong Jiang, Future University Hakodate (Japan)

Advisory Chairs
Jinhua She, Tokyo University of Technology (Japan)
Paulo de Figueiredo Pires, Dell (Brazil)
Chuan-Yu Chang, National Yunlin University of Science and Technology (Taiwan)

Program Chairs
Claudio Miceli, Federal University of Rio de Janeiro (Brazil)
Ao Guo, Nagoya University (Japan)
Lidia Fotia, University of Salerno (Italy)

Track Chairs
Federico Santoro, University of Catania (Italy)
Marco Miozzo, CTTC (Spain)
Claudio Savaglio, University of Calabria (Italy)
Rebeca Motta, Universidade Federal Fluminense (Brazil)
Andrea Vinci, ICAR-CNR (Italy)
Ao Guo, Nagoya University (Japan)

Workshop & Special Session Chairs
Irfanullah Khan, University of Glasgow (UK)
Wenjing Zhao, University of Glasgow (UK)

Publicity Chairs
Sun Jingtao, Hitachi (Japan)
Wei Li, The University of Sydney (Australia)
Gwanggil Jeon, Incheon National University (Korea)
Antonino Galletta, University of Messina (Italy)
Celimuge Wu, The University of Electro-Communications (Japan)
Endang Djuana, Universitas Trisakti (Indonesia)
Zhuotao Lian, Hiroshima University (Japan)

Advisory Committee
Giancarlo Fortino, University of Calabria (Italy)
Samee U. Khan, Mississippi State University (USA)
Moayad Aloqaily, MBZUAI (UAE)
Nicolas Tsapatsoulis, Cyprus University of Technology (Cyprus)
D. Frank Hsu, Fordham University (USA)
Hui-huang Hsu, Tamkang University (Taiwan)
Victor Chang, Aston University (United Kingdom)

Steering Committee
Jianhua Ma, Hosei University (Japan)
Laurence T. Yang, St. Francis Xavier Univ. (Canada)
Adnan Al-Anbuky, Auckland U Tech. (New Zealand)
Flavia Delicato, Fluminense Federal University (Brazil)

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IJCNN 2025: Plan Your Trip to Rome!

April 9th, 2025 Daniela Lopez de Luise

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Get Ready for IJCNN 2025
in Rome!
The International Joint Conference on Neural Networks (IJCNN) 2025 will be held in the year and the city of the Jubilee, making it an even more special occasion. Hosted at the Pontifical Gregorian University, just a coin's throw from the iconic Trevi Fountain, attendees will have the unique opportunity to experience Rome's rich history and culture. The Eternal City will serve as an open-air museum, providing an inspiring backdrop for our discussions and networking.
The IJCNN 2025 motto, “All Neural Network roads lead to Rome,” highlights the growing significance of neural networks across various scientific domains and applications, all of which are welcome to IJCNN 2025. Neural networks are at the forefront of interdisciplinary research, connecting diverse fields and driving innovation. This theme underscores the central role that neural networks play in advancing science and technology.
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SASSUR 2025 – Call for papers

April 9th, 2025 Daniela Lopez de Luise
********************************************************************
12th International Workshop on Next Generation of System Assurance Approaches for Critical Systems – SASSUR 2025
September 9th, 2025
In conjunction with the 44th International Conference on Computer Safety, Reliability and Security – SafeComp 2025
********************************************************************
IMPORTANT DATES
Paper submission: May 5th, 2025
Notification of acceptance: May 27th, 2025
Camera-ready submission: June 10th, 2025
********************************************************************
System assurance and certification are amongst the most expensive and time-consuming tasks in the engineering of critical systems, e.g., safety-critical, security-critical, privacy-critical, explainability-critical, mission-critical, and business-critical systems. Assurance can be defined as the set of planned and systematic actions necessary to provide adequate confidence and evidence that a system satisfies given requirements, e.g., for system safety or for compliance with some standards. Certification can be defined as the legal recognition that a system complies with standards and regulations designed to ensure that the system can be depended upon to deliver its intended service.
Assurance and certification of critical systems require the execution of complex and labour-intensive activities, such as the management of compliance with hundreds or thousands of criteria defined in standards, the management of a large volume of evidence artefacts throughout a system’s lifecycle to demonstrate compliance, or the provision of convincing and valid justifications that a system is dependable. Therefore, the companies developing critical systems or components, as well as the companies assessing the systems and components, need approaches that facilitate these activities and ideally increase their efficiency. The challenges arising from system assurance and certification are further growing as a result of the technological advancements of critical systems, e.g., towards open, interconnected, networked, intelligent systems. This poses new challenges in ensuring safety, as well as other dependability concerns such as security, availability, robustness, and reliability. In general, practitioners expect improvements in the available methods and tool support for system assurance and certification.
The SASSUR workshop is intended to explore new ideas on assurance and certification of critical systems. In particular, SASSUR will provide a forum for thematic presentations and in-depth discussions about specification, analysis, reuse, composition, and combination of assurance arguments, of assurance evidence, and of contextual information about critical products, in a way that makes assurance and certification more cost-effective, precise, and scalable.
SASSUR aims at bringing together experts, researchers, and practitioners from diverse communities, such as safety, privacy, and security engineering, the recently coined explainability engineering, certification processes, model-based engineering, software and hardware design, critical systems, and application communities (transport, healthcare, industrial automation, robotics, nuclear, defence, etc.).
TOPICS
Contributions are sought in (but are not limited to) the following topics:
– Agile approaches in the context of critical systems
– Assurance and certification of autonomous or adaptive systems
– Assurance case development
– Assurance for new technologies and for their application  (e.g., blockchain, edge AI, and digital twins)
– COTS or external sourcing management of evidence in critical systems
– Cross-domain product certification
– Emergent V&V needs for assurance and certification
– Evolution of standards and trends on regulations
– Evolutionary approaches for system assurance
– Human factors in system assurance
– Industrial challenges for cost-effective assurance and certification of critical systems
– Integration of process-centric and product-centric assurance
– Management of assurance evidence
– Management of compliance with standards and regulations
– Methods and techniques for artificial intelligence assurance
– Mixed-criticality system assurance
– Model-based system assurance and certification
– Multi-concern (safety, security, privacy, reliability, explainability…) system engineering and assurance
– Support for re-certification processes
– Technical debt for safety, security, privacy, etc.
– Tool support for assurance and certification
INFORMATION FOR AUTHORS
Authors are invited to submit short papers (6 pages; including references) or full paper (max. 12 pages; including references) in PDF format using Easychair: https://easychair.org/conferences/?conf=sassur2025
Submissions must conform to the Springer LNCS formatting guidelines (https://www.springer.com/gp/computer-science/lncs/conference-proceedings-guidelines). Papers will be peer-reviewed through a regular refereeing procedure, with a minimum of three reviewers per paper. If accepted for presentation, the papers will be published in the SafeComp 2025 Workshops proceedings (LNCS series in the last years). At least one author of each accepted paper must register to the workshop and present the paper so that it is included in the proceedings.
WORKSHOP COMMITTEES
Organisation Committee
– Jose Luis de la Vara. University of Castilla-La Mancha, Spain
– Barbara Gallina. Mälardalen University, Sweden
Programme Committee (to be completed)
– Clara Ayora. University of Castilla-La Mancha, Spain
– Claude Baron. LAAS-CNRS, France
– Fabien Belmonte. Alstom, France
– Irene Bicchierai. ResilTech, Italy
– Carmen Carlan. TÜV Süd, Germany
– Marie Farrell. University of Manchester, UK
– Richard Hawkins. University of York, UK
– Jason Jaskolka. Carleton University, Canada
– Garazi Juez. BMW, Germany
– Xabier Larrucea. University of the Basque Country, Spain
– Georg Macher. Graz University of Technology, Austria
– Johnny Marques. ITA, Brazil
– Ilaria Matteucci. IIT-CNR, Italy
– Dag McGeorge. DNV, Norway
– Leonardo Montecchi. Norwegian University of Science and Technology, Norway
– Anitha Murugesan. Honeywell, USA
– Thor Myklebust. SINTEF, Norway
– Vera Pantelic. McMaster University, Canada
– Katia Potiron. KDNS, France
– Philippa Ryan. University of York, UK
– Irfan Sljivo. NASA, USA
– Jéssyka Vilela. Federal University of Pernambuco, Brazil
– Fredrik Warg. RISE, Sweden
– Marc Zeller. Siemens, Germany
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SADIO – Introducción a la Computación Cuántica(Virtual)

April 8th, 2025 Daniela Lopez de Luise

SADIO__fondo_transparente.gif

Estimados

Les acercamos información sobre un nuevo curso virtual que se dictará en SADIO.
Esperamos que sea de su interés y agradecemos la difusión que pueda darle.
Consulte por otros cursos en https://academia.sadio.org.ar/

Saludos cordiales.
 
¡Seguinos en nuestras redes sociales para enterarte de más novedades! 

CURSO VIRTUAL – Introducción a la Computación Cuántica

 

Fecha de inicio: 02 de Junio de 2025

Docente: Dr. Federico Holik (Instituto de Física La Plata (IFLP-CONICET))

Duración: 2 semanas 

Descripción:  La Teoría de la Información Cuántica podría definirse como el formalismo que surge bajo la premisa de que los componentes de los dispositivos que se utilizan para almacenar, transmitir y procesar información, son sistemas cuánticos. Los resultados de distintas investigaciones indican que el desarrollo de tales dispositivos podría dar lugar a una profunda revolución tecnológica, de consecuencias impredecibles. Las aplicaciones potenciales van desde el desarrollo de sensores súper precisos y sistemas de comunicación, hasta  computadoras cuánticas. Muchos de estos dispositivos, si bien no han desplegado aún toda su potencialidad, ya han sido aplicados a problemas concretos y se comercializan en la actualidad.  En particular, las computadoras cuánticas tienen la característica de que, en principio, podrían ser capaces de resolver problemas computacionales que a las computadoras clásicas les llevaría muchísimo tiempo resolver. Esto es, las computadoras cuánticas se presentan como candidatas para obtener un aumento exponencial en la velocidad de resolución de diversos problemas, en comparación a los mejores algoritmos clásicos conocidos. Entre estos problemas, se encuentran la factorización de números enteros (con aplicaciones a la ciber-seguridad), la resolución de problemas de optimización combinatoria (como por ejemplo, en las cadenas de suministro, o en la optimización de portfolios en bancos), y el modelado de moléculas complejas con aplicaciones industriales, farmacéuticas y biotecnológicas. Dada la relevancia económica de los potenciales cambios tecnológicos, el desarrollo de computadoras cuánticas se ha vuelto una apuesta fuerte de las grandes compañías de software y hardware, así como de distintos estados y organizaciones gubernamentales. De esta forma, la teoría de la información cuántica se encuentra en el foco de una revolución tecnológica que tiene un elevado impacto social y económico. En este curso vamos a dar una introducción a la teoría de la información cuántica, analizando las características generales de los problemas tecnológicos en los que podría encontrar aplicaciones. Discutiremos también distintas arquitecturas de computadoras cuánticas y los desafíos que se enfrentan a la hora de desarrollarlas, así como distintos algoritmos y lenguajes de programación cuántica.

Objetivos:

  •     Comprender el impacto tecnológico de la teoría de la información cuántica.
  •     Introducirse en el formalismo cuántico y los distintos algoritmos de información cuántica.
  •     Familiarizarse con las distintas arquitecturas de computadoras cuánticas y otros dispositivos basados en la teoría de la información cuántica. Comprender sus perspectivas de desarrollo y aplicaciones.
  •     Entender los algoritmos cuánticos más relevantes y su relevancia teórica y tecnológica.
  •     Familiarizarse con distintos lenguajes de programación cuántica.
     

Dirigido a: Estudiantes de licenciatura e ingenierías en computación, matemáticas y física. Desarrolladores de software que quieran comenzar a interiorizarse en la teoría de la información cuántica. Cualquier otro profesional que desee comprender los aspectos fundamentales de la teoría de la información cuántica y sus potenciales impactos tecnológicos en el corto y mediano plazo.

Requisitos: Es importante haber tenido un curso introductorio de álgebra lineal de primer año de alguna carrera de ciencias exactas o ingeniería. Por todo lo demás, el curso tratará de ser tan autocontenido como sea posible.

Modalidad: Las clases se desarrollarán en modo virtual, con encuentros sincrónicos a través del campus de SADIO y la metodología de trabajo combinará el análisis de contenido teórico con resolución de ejercicios prácticos. 

Días y horarios: Las clases sincrónicas serán los martes 3, jueves 5, martes 10 y jueves 12 de junio de 18 a 20 horas. Las clases quedarán grabadas en el campus para su consulta durante el curso.

Duración: 2 semanas

Temario:

1. Introducción a la teoría de la información cuántica.

  •     Introducción histórica. Motivaciones económicas y tecnológicas.
  •     Dispositivos cuánticos: agentes públicos y privados que los desarrollan.
  •     Diferencias entre las nociones de bit y de qubit (bit cuántico). 
  •     El desafío de la “supremacía cuántica”: resultados y perspectivas.
  •     Aprendizaje automatizado y computación cuántica.

2. El formalismo cuántico

  •     Breve introducción al formalismo matemático de la teoría cuántica.
  •     Espacios vectoriales, espacios de Hilbert y Notación Dirac. 
  •     Propiedades generales de los sistemas cuánticos. Representación formal usando espacios de Hilbert.
  •     Probabilidades cuánticas y eventos.
  •     Estados cuánticos: puros y mixtos. Matrices densidad. Bits vs qubits: representación matemática.
  •     Operadores unitarios y compuertas lógicas cuánticas.
  •     Compuertas lógicas clásicas vs cuánticas.

3. Ejemplos de algoritmos cuánticos y lenguajes de programación cuántica

  •     Algoritmo de Deutsch-Jozsa.
  •     Algoritmo de búsqueda de Grover
  •     Transformada de Fourier cuántica.
  •     Algoritmo de Schor
  •     Ejemplos de lenguajes: Qiskit, Qutip, PennyLane y Strawberry Fields.

4. Dispositivos cuánticos: empresas, estados y funciones.

  •     Generadores cuánticos de números aleatorios.
  •     Sensores.
  •     Internet cuántica.
  •     Sistemas de distribución de claves cuánticas.
  •     Simuladores.
  •     Computadoras cuánticas.
  •     Quantum annealers.
  •     Iones atrapados.
  •     Computadoras cuánticas fotónicas.
  •     Distintas instancias de qubits: modos fotónicos, dispositivos superconductores, átomos fríos.
  •     Computadoras cuánticas universales vs computadoras cuánticas. 

Requisitos y Procedimientos de Evaluación
Para obtener el CERTIFICADO DE ASISTENCIA:
•    Los asistentes deberán registrar un 80% de asistencia de visualización de todo el material contenido en el aula virtual del curso.

Para obtener el CERTIFICADO DE APROBACIÓN:
•    Los asistentes deberán registrar un 80% de asistencia de visualización de todo el material contenido en el aula virtual del curso.
•    Y presentar y aprobar el Trabajo Final según las consignas del curso.

Formulario de inscripción: https://forms.gle/9EsE2a4zsiTLm7eV9

Aranceles
Inscripción temprana (hasta el 26 de Mayo de 2025)
* AR$ 80.000.- (para nacionales)
* USD 100.- (para extranjeros)

Inscripción tardía (desde el 27 de Mayo de 2025)
* AR$ 88.000.- (para nacionales)
* USD 110.- (para extranjeros)

50% Descuento para socios de SADIO (con 12 meses de antigüedad)
Los socios de AADECA gozan de los mismos derechos que los socios de SADIO
 

Medios de pago disponibles solo para residentes en Argentina

– Pago por Transferencias Bancarias
SADIO (CUIT 30-64931218-0)
BBVA – Sucursal 330 Tribunales
Cta. Cte. Pesos: 502/7
CBU: 0170330420000000050276
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Antecedentes del docente:
Federico Holik es Doctor en Física. Defendió su Tesis de Doctorado en la Universidad de Buenos Aires (Argentina). Realizó estancias postdoctorales en el Instituto de Física La Plata (Argentina) y en la Université Paris Diderot (Francia). Actualmente es Investigador Adjunto del CONICET, en el Instituto de Física La Plata. Sus investigaciones están enfocadas en los fundamentos de la mecánica cuántica, la teoría de la información cuántica, y el estudio de las propiedades lógicas geométricas y algebraicas del formalismo cuántico. La lista completa de sus publicaciones científicas puede encontrarse en: https://orcid.org/0000-0002-6776-5281
Más información en www.holik.com.ar  y  www.quantumlogic.com.ar
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