18331465. FREQUENCY ALLOCATION IN MULTI-QUBIT CIRCUITS simplified abstract (International Business Machines Corporation)
Contents
FREQUENCY ALLOCATION IN MULTI-QUBIT CIRCUITS
Organization Name
International Business Machines Corporation
Inventor(s)
Jared Barney Hertzberg of Yorktown Heights NY (US)
Sami Rosenblatt of White Plains NY (US)
Easwar Magesan of Mount Kisco NY (US)
John Aaron Smolin of Yorktown NY (US)
FREQUENCY ALLOCATION IN MULTI-QUBIT CIRCUITS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18331465 titled 'FREQUENCY ALLOCATION IN MULTI-QUBIT CIRCUITS
Simplified Explanation
The abstract describes techniques for facilitating frequency allocation in multi-qubit circuits through simulations and selection based on estimated fabrication yield.
- Determining estimated fabrication yield of qubit chip configurations through simulations at frequency offsets
- Selecting qubit chip configuration with highest fabrication yield
- Computer-implemented method for frequency allocation in multi-qubit circuits
Potential Applications
- Quantum computing
- Semiconductor manufacturing
- Telecommunications
Problems Solved
- Optimizing frequency allocation in multi-qubit circuits
- Improving fabrication yield of qubit chip configurations
Benefits
- Increased efficiency in frequency allocation
- Enhanced performance of multi-qubit circuits
- Cost savings in fabrication processes
Original Abstract Submitted
Techniques facilitating frequency allocation in multi-qubit circuits are provided. In one example, a computer-implemented method comprises determining, by a device operatively coupled to a processor, an estimated fabrication yield associated with respective qubit chip configurations by conducting simulations of the respective qubit chip configurations at respective frequency offsets; and selecting, by the device, a qubit chip configuration from among the respective qubit chip configurations based on the estimated fabrication yield associated with the respective qubit chip configurations.