Multi-spin couplers in superconducting quantum annealers – analysis based on perturbation theory

Yongchao Tang; Denis Melanson; Antonio Martinez; Huichen Sun; Muhammet Ali Yurtalan; Adrian Lupascu

Multi-spin couplers in superconducting quantum annealers – analysis based on perturbation theory

ORAL

Abstract

Multi-qubit interactions are important for many applications in quantum annealing, including the implementation of logical qubits for error correction and K^th order optimization problems with K > 2. One approach to the implementation of multi-qubit coupling is to use perturbative gadgets. We analyzed the properties of the couplers by the perturbative gadgets. We discuss the design of couplers optimized in the context of superconducting circuits, including gadgets based on ancilla qubits and other more general superconducting circuits. Critical problems in the design of perturbative gadgets with superconducting circuits are addressed.

^*The research is based upon work supported by the Office of the Director of National Intelligence (ODNI), Intelligence Advanced Research Projects Activity (IARPA), via the U.S. Army Research Office contract W911NF-17-C-0050. The views and conclusions contained herein are those of the authors and should no

March 5, 2018, 3:30 PM – March 5, 2018, 3:42 PM

Presenters

Yongchao Tang
- Physics & Astronomy, University of Waterloo
- Univ of Waterloo

Authors

Yongchao Tang
- Physics & Astronomy, University of Waterloo
- Univ of Waterloo
Denis Melanson
- Univ of Waterloo
Antonio Martinez
- Univ of Waterloo
- University of Waterloo
- Physics & Astronomy, University of Waterloo
Huichen Sun
- Univ of Waterloo
- University of Waterloo
- Physics & Astronomy, University of Waterloo
Muhammet Ali Yurtalan
- Univ of Waterloo
- University of Waterloo
- Electrical & Computer Engineering, University of Waterloo
Adrian Lupascu
- Univ of Waterloo
- University of Waterloo
- Physics & Astronomy, University of Waterloo