Quantum Utilities for Integrated Characterization
Technical Report,21 Dec 2018,20 Jun 2019
Quantum Benchmark New Haven United States
Pagination or Media Count:
The goals summarized below are as stated in the original proposal. The overall performance of agate-based quantum information processing device is determined by its ability to execute low-level gates native to its architecture with low error rates. Specifically, error rates must be low in the context of quantum circuits that require many gates to be executed simultaneously. High-fidelity one- and two-qubit operations have been demonstrated in a variety of physical implementations of multi-qubit systems. These operations demonstrate key components of a quantum information processing system for either physical or logical quantum operations. At the same time, existing experimental methods of evaluating one- and two-qubit gate fidelities suffer from two key limitations.
- Quantum Theory and Relativity