Inaugural Frontiers in Quantum Computing celebrates new grasp’s program
KINGSTON, R.I. – July 22, 2021 – The University of Rhode Island will host greater than a dozen international experts within the rising area of quantum data science in October for the inaugural Frontiers in Quantum Computing conference in celebration of the launch of URI’s new grasp’s diploma program in quantum computing.
The conference, which can happen Oct. 18-20 on URI’s picturesque Kingston Campus amid fall foliage, will function day by day talks and a panel focusing on the future of quantum computing, present developments and analysis, and academic initiatives for future leaders within the area.
“We are bringing key quantum information science leaders from all sectors—government, academia and industry—to URI to present the latest developments and frontiers in the theoretical and experimental aspects of quantum computing,” mentioned Vanita Srinivasa, assistant professor of physics and director of URI’s new Quantum Information Science Program. “This is not only the inaugural event for our new degree. This will mark the first major conference on quantum computing for the region, and we want to establish Rhode Island as a center of quantum information science.”
“URI’s new Master of Science in Quantum Computing is a meaningful step not only for our region’s quantum workforce development—but also for the U.S. and global quantum ecosystem,” mentioned Christopher Savoie ’92, founder and chief govt officer of Zapata Computing, who’s a member of the conference steering committee and will likely be one of the audio system on the conference. “This inaugural conference is a pioneering effort on the University’s part to launch a regional center for quantum computing—and it’s amazing to return to campus with some of our field’s greatest contributors.”
The record of audio system consists of U.S. Sen. Jack Reed, who will ship an tackle on the opening day of the conference, together with pioneers from throughout the U.S. in addition to from Canada, Europe, and Australia. They will present a glance into completely different areas of quantum computing. They embrace:
- Jake Taylor, the primary assistant director of Quantum Information Science on the White House Office of Science and Technology Policy and founder of the nationwide effort overseeing implementation of the National Quantum Initiative Act. Taylor will ship the conference’s opening keynote presentation.
- Umesh Vazirani, director of the University of California’s Berkeley Quantum Computation Center, who’s one of the founders of quantum computing algorithms and quantum complexity principle. Vazirani will give URI’s annual Alexander M. Cruickshank Lecture. (The lecture, which honors the long-time chemistry professor, was established in 1999 to educate the URI neighborhood on the themes of chemistry, physics and biology.)
- Alan Aspuru-Guzic, a professor of chemistry and laptop science on the University of Toronto and co-founder of Zapata Computing.
- Michelle Simmons, 2018 Australian of the Year, director of the Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology, and a world pioneer in atomic electronics and silicon-based quantum computing.
With the launch of URI’s grasp’s program in quantum computing, training will likely be a spotlight of the conference, and school and highschool college students are inspired to attend to be taught extra in regards to the alternatives within the area and to make skilled connections. Among the audio system focusing on training will likely be Professor Chandralekha Singh, president of the American Association of Physics Teachers. Also, college students and postdoctoral scientists are invited to current their very own work by way of analysis posters.
Leonard Kahn, chair of the URI Physics Department, says given the interdisciplinary nature of quantum computing, the conference will likely be of curiosity to a large viewers.
“The future of quantum computing will impact us all as we go forward. People will come away from this conference with a far broader understanding of the topic,” mentioned Kahn. “We hope to encourage the full URI community and all the high schools to attend. We’ll have talks on education, and our round-table discussion on the future of quantum computing will present a diverse group of people describing their views of the future. I think that will be enlightening to the general community. This is not just for people in physics. This not only affects the STEM disciplines, but also philosophy and the humanities.”
The conference is deliberate as a primarily in-person occasion. But given the uncertainty of the pandemic and its impression on journey, some audio system could also be digital, and plans for a hybrid format are in place.
Along with Zapata Computing, sponsors for Frontiers in Quantum Computing embrace IBM and D-Wave each pioneers within the improvement of quantum computer systems. Sponsorship alternatives are nonetheless accessible. For extra data, contact Leonard Kahn at [email protected].
New grasp’s program
The 38-credit Master of Science in Quantum Computing program, which begins within the fall as half of the Physics Department’s new Quantum Information Science Program, aligns with the targets of the National Quantum Initiative Act. The act highlights the necessity for researchers, educators and college students and for the expansion of multidisciplinary curricula and analysis alternatives in quantum-based applied sciences.
The program, which builds on URI’s strengths in quantum data science, optics and nanophysics, is geared towards college students with a bachelor’s diploma in physics or a intently associated self-discipline and a fundamental understanding of quantum mechanics.
“What makes the program unique in the U.S. is that a student can come in as a freshman and in five years graduate with both a bachelor’s degree in physics and a Master of Science in Quantum Computing,” Kahn mentioned.
Students graduating from this system can both use the diploma as a direct route into the quantum computing trade or as preparation for doctoral research. The non-thesis program consists of specialised coursework in quantum computing and complementary graduate-level coursework in physics. The program additionally permits college students the pliability to tailor their research to pursue pursuits in arithmetic, laptop science, and engineering by way of this system’s interdisciplinary curriculum.
In addition, this system has established partnerships with industrial companies, akin to Zapata Computing, in addition to nationwide labs and institutes that can assist college students participate in collaborative analysis tasks and internships to guarantee they’re ready to enter the workforce or to pursue additional research within the quickly advancing area.
“There are several major quantum computing efforts in New England, and students will have access to that,” mentioned Srinivasa. “They will have access to industry and government internships that will give them hands-on, experiential learning, along with opportunities to pursue research with University faculty and their collaborators in this field.”
Frontiers in Quantum Computing, lectures and the panel dialogue on the future of quantum computing are free and open to the general public however registration is required. To be taught extra in regards to the conference or to register, go to the Frontiers in Quantum Computing webpage. For extra data on the grasp’s program, e-mail Leonard Kahn at [email protected] or Vanita Srinivasa at [email protected].