InterDigital Patent Holdings, Inc. (20240378476). METHODS, ARCHITECTURES, APPARATUSES AND SYSTEMS FOR ENABLING JOINT QUANTUM MEASUREMENT AND MEMORY AS A SERVICE simplified abstract
METHODS, ARCHITECTURES, APPARATUSES AND SYSTEMS FOR ENABLING JOINT QUANTUM MEASUREMENT AND MEMORY AS A SERVICE
Organization Name
InterDigital Patent Holdings, Inc.
Inventor(s)
Chonggang Wang of Princeton NJ (US)
Shamim Rahman of Cote St. Luc (CA)
METHODS, ARCHITECTURES, APPARATUSES AND SYSTEMS FOR ENABLING JOINT QUANTUM MEASUREMENT AND MEMORY AS A SERVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240378476 titled 'METHODS, ARCHITECTURES, APPARATUSES AND SYSTEMS FOR ENABLING JOINT QUANTUM MEASUREMENT AND MEMORY AS A SERVICE
The patent application describes a method for quantum measurement implemented by a device that communicates with clients and servers, where the servers have quantum measurement physical equipment.
- Receiving qubits from the client via a quantum channel.
- Performing a qubit operation to obtain transformed qubits.
- Sending a portion of the transformed qubits to the server.
- Receiving information associated with quantum measurement results from the server.
Potential Applications: - Quantum computing - Quantum communication - Quantum cryptography
Problems Solved: - Enhancing quantum measurement accuracy - Improving quantum data processing efficiency
Benefits: - Increased reliability of quantum measurements - Enhanced security in quantum communication
Commercial Applications: Quantum measurement devices for research institutions, technology companies, and government agencies.
Questions about Quantum Measurement: 1. How does quantum measurement differ from classical measurement techniques?
Quantum measurement involves the principles of superposition and entanglement, which are unique to quantum mechanics and not present in classical physics.
2. What are the challenges in implementing quantum measurement in practical applications?
Challenges include maintaining coherence of qubits, minimizing errors in measurements, and developing scalable quantum systems.
Original Abstract Submitted
procedures, methods, architectures, apparatuses, systems, devices, and computer program products of quantum measurement implemented by a device, the device configured to communicate with a client and with one or more servers, wherein the one or more servers comprise one or more quantum measurement physical equipment, the method comprising: receiving qubits from the client via a first quantum channel between the device and the client; performing a first qubit operation on the qubits to obtain transformed qubits; sending a first portion of the transformed qubits to the first server via a second quantum channel between the device and the first server; receiving, from the first server, information associated with first quantum measurement results of the first portion of the transformed qubits.
