QUANTUM COMPUTING DEVICE USING TWO GATE TYPES TO PREVENT FREQUENCY COLLISIONS IN SUPERCONDUCTING QUANTUM COMPUTERS

Organization Name

International Business Machines Corporation

Inventor(s)

David C. Mckay of Ossining NY (US)

Jay M. Gambetta of Yorktown Heights NY (US)

QUANTUM COMPUTING DEVICE USING TWO GATE TYPES TO PREVENT FREQUENCY COLLISIONS IN SUPERCONDUCTING QUANTUM COMPUTERS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18151039 titled 'QUANTUM COMPUTING DEVICE USING TWO GATE TYPES TO PREVENT FREQUENCY COLLISIONS IN SUPERCONDUCTING QUANTUM COMPUTERS

Simplified Explanation

The abstract describes a quantum computing device that consists of multiple qubits with different resonance frequencies and a tunable frequency bus connecting them.

• The device includes a first plurality of qubits with a specific resonance frequency.
• There is also a second qubit with a different resonance frequency from the first plurality of qubits.
• A first tunable frequency bus is present, which is designed to connect the first plurality of qubits to the second qubit.

Potential Applications

This technology has the potential to be applied in various fields, including:

• Quantum computing: The device can be used to perform complex calculations and solve problems that are currently infeasible for classical computers.
• Cryptography: Quantum computing has the potential to break current encryption algorithms, but this technology can be used to develop more secure quantum-resistant encryption methods.
• Optimization: Quantum computing can be utilized to optimize complex systems, such as supply chains, financial portfolios, and transportation networks.

Problems Solved

The technology addresses several challenges in quantum computing:

• Resonance frequency differences: By incorporating qubits with different resonance frequencies, the device enables more flexible and efficient quantum operations.
• Qubit coupling: The tunable frequency bus allows for the coupling of qubits with different resonance frequencies, facilitating communication and computation between them.

Benefits

The benefits of this technology include:

• Enhanced computational power: The use of multiple qubits with different resonance frequencies increases the computational capabilities of the quantum computing device.
• Improved flexibility: The tunable frequency bus provides flexibility in connecting and interacting with different qubits, enabling more versatile quantum computations.
• Potential for more secure encryption: Quantum-resistant encryption methods developed using this technology can enhance data security in various applications.

Original Abstract Submitted

A quantum computing device including a first plurality of qubits having a first resonance frequency and a second qubit having a second resonance frequency, the second resonance frequency being different from the first resonance frequency; and a first tunable frequency bus configured to couple the first plurality of qubits to the second qubit.