CMSC 858O On the Foundation of End-to-End Quantum Applications, Fall 2022Course DescriptionThis is an exciting time for quantum computing! With the availability of prototypes of quantum machines, it becomes possible for quantum computing researchers to go beyond purely theoretical studies and investigate the implementation and actual performance of real-world quantum applications. However, there is a significant gap between current theoretical studies of quantum computing and practical applications on near-term quantum machines. The gap is multi-folded: e.g., the findings from the pure theoretical study are unfortunately NOT directly relevant/useful in the practice of quantum computing with a significant chance. Moreover, in addition to the conventional study of quantum computing that focuses on the methodology developed in algorithm design and complexity theory, new topics and methodologies would need to be explored to tackle many aspects of practical quantum computing. This course aims to expose this gap and offer an opportunity to explore this rapidly evolving research frontier. In particular, we hope to explore the intersection of quantum computing with general research in computer science, such as algorithms, machine learning, programming languages, security/cryptography, architecture/system, network/communication, as well as some basics of quantum hardware control/design. We hope research in these relevant fields would pave the foundation for end-to-end quantum applications. A common mindset behind these topics, or computer science research in general, is the so-called computational thinking, which is an essential mind tool that enables computation to solve tasks that do not seem like computation on the surface. Past offering: Fall 2021 Who should take this course?Anyone who is interested in exploring the above topics could take this course. However, to facilitate the instruction of this course, it is expected that
This course will involve the use of realistic quantum devices, some of which are already available through cloud access. It is expected the students will be able to implement some applications on these devices. Format & EvaluationThis is an advanced graduate-level seminar course. Multiple topics, as listed in the syllabus page, will be covered in this course. Some basic topics will be delivered by the instructor, after which students are expected to take the initiative to read and present papers. It is expected that you read the corresponding references before all lectures, even if you are not presenting, for a more effective discussion. Students are also expected to scribe lecture notes for the topics covered by the instructor. An important component of this course is a course project which will include a report and a final presentation. Your grade for this course will consist of
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Academic IntegrityNote that academic dishonesty includes not only cheating, fabrication, and plagiarism but also includes helping other students commit acts of academic dishonesty by allowing them to obtain copies of your work. In short, all submitted work must be your own. Cases of academic dishonesty will be pursued to the fullest extent possible as stipulated by the Office of Student Conduct. It is very important for you to be aware of the consequences of cheating, fabrication, facilitation, and plagiarism. For more information on the Code of Academic Integrity or the Student Honor Council, please visit http:www.shc.umd.edu. For a complete treatment of course-related policies, please see: http:www.ugst.umd.edu/courserelatedpolicies.html. Excused Absence and Academic AccommodationsAny student who needs to be excused for an absence from lectures should make a reasonable attempt to inform the instructor of his/her illness prior to the class. If there is any medical emergency, the instructor should be informed as soon as possible with official written documentation. Any student eligible for and requesting reasonable academic accommodations due to a disability is requested to provide a letter of accommodation from the Office of Disability Support Services within the first two weeks of the semester. Inclusivity StatementWe understand that our members represent a rich variety of backgrounds and perspectives. The computer science department is committed to providing an atmosphere for learning that respects diversity. While working together to build this community we ask all members to:
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