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Through the lab's equipment and courses, students will understand the underlying principles of quantum computing, master quantum control operations, practice quantum algorithms, and develop quantum programming skills, enabling them to analyze and solve quantum computing problems from multiple aspects.
This program integrates theoretical and experimental teaching of quantum computing, covers a variety of experimental contents related to cutting-edge quantum information science and technology. It aims to cultivate students' hands-on skills and critical thinking about quantum computing in a more open and flexible method. The program is suitable for undergraduate as foundational courses in quantum computing theory and experiments, as well as advanced experimental teaching and research projects at the graduate level .
Based on the actual teaching purposes and needs of different majors, we provide configurations integrating hardware, course material, software and services to meet the different learning needs of quantum information science, physics, computer science, and other majors in quantum computing.
(070206T)
Quantum Information Science
(070201)
Physics
(080901)
Computer Science
Other Majors
Scientific Research Direction
The desktop NMR quantum computer and quantum computing experiment platform can run quantum computing experiments with stable and high performance. Users can design quantum circuits and run them on the corresponding teaching instruments, and engage in quantum operations. These teaching instruments meet the teaching requirements for Quantum Information Science Major in quantum computing. The secondary software facilitates quick and convenient multi-user design and execution of quantum computing experiments.
The SPINQ Gemini Lab offers experiments in quantum computing, quantum mechanics, and nuclear magnetic resonance, fulfilling the diverse teaching needs of the Physics major. The lab's extensive quantum mechanics experimental courses provide students with deeper insights into quantum computing concepts.
NMR quantum computers enable students to run and test algorithms on real quantum hardware, enhancing their practical skills. Our quantum computing courses introduce quantum concepts and algorithms in an accessible manner, opening new realms of exploration and understanding for students of Computer Science.
The NMR quantum computers and software offer an intuitive and practical platform, allowing students from various other science and engineering majors to directly experience and operate real quantum devices, thereby validating theoretical knowledge.
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Beijing Institute of TechnologyBeijing Institute of Technology (BIT) has been able to provide students with a better grasp of the theoretical and experimental fundamentals of quantum information by conducting a hands-on class on quantum technology, utilising SpinQ's educational-grade quantum computers.
Harbin Institute of Technology,ShenzhenHarbin Institute of Technology (Shenzhen) has taken the lead in taking the first step on the way to cultivate talents in quantum information theory by bringing real experience of quantum computing hardware to our university and even to undergraduate and postgraduate students in the university city of Shenzhen through SpinQ's education-grade quantum computers.
The Bandung Institute of TechnologyWith the portable NMR quantum computer SPINQ Gemini Mini Pro, students can visualise the real quantum computing experience, thus stimulating their learning interest and curiosity, which is exactly the key reason why STEI ITB chose SpinQ's products as the teaching aids for quantum computing.
The University of Western AustraliaIn the process of quantum education, the University of Western Australia, through the use of the NMR quantum computers SPINQ Gemini and SpinQ Triangulum , not only bring real quantum computing experience to students and enhances their knowledge and skills in quantum computing, but also greatly facilitates the development of the university's quantum science-related programmes and further improves the quality of the university's quantum education.
Oslo Metropolitan UniversityThrough the hands-on experience of "seeing is believing", students can not only design and operate quantum circuits on their own, but also deepen their understanding of quantum algorithms and other knowledge through practice.
National Autonomous University of MexicoThe arrival of quantum computers allows us to analyse, process and enhance our teaching and learning, as well as giving students more opportunities to develop in the workplace and better expand their research at undergraduate and postgraduate level.
As a one-stop experimental platform, it covers everything from quantum mechanics to computing. Equipped with advanced Radio Frequency technology and a highly open architecture, SPINQ Gemini Lab supports experiments from pulse-level to gate-level, and algorithm-level, making it ideal for both teaching and research in higher education.
It Provides a complete solution for quantum computing education and demonstrations, supporting any 3-qubit quantum algorithm and allowing users to freely write quantum programs. It also features open hardware-level pulse sequence editing. And it is cost-effective, maintenance-free, and highly stable.
It provides a complete solution for quantum computing education and demos, with a built-in touchscreen, control system, and curriculum for teaching and self-learning. It enables people with diverse academic backgrounds and knowledge levels to quickly grasp quantum computing basics and algorithm design.
With a newly designed pulse scheme, it provides a more stable experimental process, allowing for more diverse quantum computing experiments and meeting higher-level design requirements.