Quantum Information Processing - Budapest University of Technology and Economics
Introductory university course on hands-on quantum computing. One goal is to introduce quantum information theory and computing. Another goal is to provide hands-on experience in programming an actual quantum computer. That is, the basic concepts, gadgets, algorithms, etc., should be implemented and run by the students themselves, partly during the lectures, partly as homework. We will use the quantum computers of the IBM Quantum Experience project, which are available via the cloud for anyone.
Institute of Physics, Budapest University of Technology and Economics
This 60 credits research-oriented Master that can be considered a step toward doctoral studies. The one-year programme, finalized with a research-based Master Thesis, is available for up to 20 students per year. The courses (compulsory and by choice) are taught in English by professors and researchers with proven track record in both teaching and research. The courses include fundamental quantum theory (from condensed matter to quantum field and gravitation) and its various applications in information processing and other technologies.
The Ph.D. candidate enrolled in this program will receive a state-of-the-art education in the basic ideas of quantum science, in the main material platforms used in experiments, and in the mathematical concepts used for their description, as well as in the information and computation science concepts that aim at exploiting QST for applications. She/he will be expected to carry out cutting-edge research on subjects of interest of the Q@TN consortium, possibly in collaboration with our international project partners.
Quantum World Lecture in Pre-service Teacher Education
The academic teacher education is a didactic course for academic physics students, in order to become a pre-university teacher. Part of this education is a lecture about the didactics of Quantum World.
Today, superconductor-based quantum technology plays a key role in many areas of research, society and industry. Examples are energy technology, medical technology, sensor technology or quantum computing. In order to be prepared for future challenges in these areas and to perspectively realize new, today unthinkable applications, a profound knowledge in the field of superconductor-based quantum technology is necessary which students acquire within the scope of this specialization.
The International Max Planck Research School for Quantum Dynamics in Physics, Chemistry and Biology (IMPRS-QD) offers excellent research opportunities in the fields of chemical, biomolecular, relativistic and ultra-short quantum dynamics, ultra-cold quantum matter, quantum information and quantum electrodynamics, supervised by leading experts in these disciplines.
Max Planck Institute for Nuclear Physics (MPIK), Heidelberg University
The Specialization Course in “Quantum Technologies” is an interdisciplinary thematic course that complements the Master Courses in Physics, Mathematics, Computer Science, Chemistry, Biology, Engineering, enriching the curriculum with transversal skills, addressed in a multidisciplinary and innovative way. The Course aims to provide students of science degrees and workers in industry, the appropriate tools to address the new scenarios opened by quantum technologies. The Course is open to both internal students of Insubria and from other universities and staff of companies interested in quantum technologies.
Universidad Politécnica de Madrid, with the collaboration of Accenture as a technology partner, presents the 2nd edition of its online Master in Quantum Computing Technology. The Master's degree has a practical orientation (50% of the contents are directly devoted to lab and applications). and is designed for Graduates in Computer Engineering, Mathematics, Physics and Telecommunications and Industrial Engineering.
Universidad Politécnica de Madrid and Accenture
Online educational series “Quantum Computing for Finance”
Training for entrepreneurs,
Training for industry
"Quantum Computing for Finance" is a 2-course online program designed for learners to have an understanding of the fundamentals of quantitative & computational finance, and quantum algorithms for its implementation on quantum computers in order to realize the true potential of quantum technologies and its use-cases in Finance.
Students will obtain theoretical and practical knowledge on current modern cryptography and its concrete applications. In particular, the course focuses on post-quantum cryptography, cloud computing, secure data processing, e-voting, cryptocurrencies, and data privacy.By passing the course, students will be able to develop modern cryptographic systems based on the topics explained in the course.
This MSc focuses on the theoretical and software aspects of this technology. Specifically, it focuses on an unique blend of quantum information science, the physics of quantum hardware and quantum materials. It will also enable you to develop key skills in the area, such as how to write programs for quantum computers and to network with like-minded students who are interested in pursuing further studies in this area.Several scholarship prizes funded by Microsoft available for outstanding female applicants.
The Alfréd Rényi Institute is developing a new Masters course in Quantum Computing in the hope of attracting strong PhD candidates to this topic. The novel aspect of its new course will be to approach the theory of quantum algorithms from the perspective of the recent “Grand Unification of Quantum Algorithms”.