![]() A simple quantum computing scenario will maintain the synergy throughout the entire workshop. This workshop aims for a light introduction to the quantum computing field with the objectives to promote enthusiasm and future-thinking skills and enable students with the capacity to set and act on realistic goals in the quantum field. It introduces basic principles of quantum computing such as qubits, quantum gates, measurement, superposition, entanglement, and interference culminating with a quantum protocol, such as quantum teleportation using IBM’s quantum composer. This workshop is delivered at a level that is suitable for high-school students and is open to everyone. ![]() With the availability of Quantum Development Kits (QDKs), quantum computing can be introduced at the highschool level in a hands-on capacity. We seek to provide an open platform for state-of-the-art development efforts, exchanging ideas and best practices, and fostering research collaboration in an attempt to stimulate the formation of an inclusive research community focused around this topic.Ībstract: Quantum computing is an interdisciplinary field introducing basic quantum computing concepts to youth, and informing them about the field’s possibilities can aid youth when exploring their career choices and planning their post-secondary education. This workshop will bring together participants from the national labs, academia, industry and open-source software community to share recent results in algorithms and software for large-scale quantum circuit and analog simulations across a broad range of methods, covering state-vector, tensor network, graphical model, stabilizer, and pulse-level simulations. Importantly, these techniques and algorithms were also able to take better advantage of modern classical high-performance computing platforms based on the heterogeneous accelerated node architectures. In recent years, we observed fast progress in new advanced techniques enabling more efficient simulations of rather large quantum circuits. Stephan Eidenbenz, Los Alamos National Laboratory (LANL) - Hausi Müller, University of Victoria, Co-Chair IEEE Quantum Initiative - ProgramĮach workshop at IEEE Quantum Week 2022 is 4.5 hours long (i.e., three sessions on the same day of 90 mins).Ībstract: As quantum computing hardware is steadily evolving towards the quantum advantage regime, classical simulation of quantum circuits is becoming more and more challenging, yet crucial for the verification and validation of the new hardware and algorithms.Note IEEE Quantum Week is a multidisciplinary quantum computing venue. ![]() ![]() Workshops are the key to sustaining, growing, and evolving IEEE Quantum Week in the future. In this manner, an IEEE Quantum Week workshop serves as a forum for common interests or as an incubator for a scientific community to form a research roadmap or share a research agenda. Workshops provide opportunities for researchers, practitioners, scientists, engineers, entrepreneurs, developers, students, educators, programmers, and newcomers to exchange and discuss scientific and engineering ideas at an early stage before they have matured to warrant a conference or journal publication. IEEE Quantum Week 2022 Workshops provide forums for group (i.e., 20–50 participants) discussions on QCE22 topics in quantum research, practice, education, and applications. CCE22 In-Person Event with Virtual Component.Schedule, Floor Plans, Registration Hours.
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