20240054383. METHOD AND SERVER FOR DELEGATED QUANTUM COMPUTING USING A HARDWARE ENCLAVE simplified abstract (VERIQLOUD)
METHOD AND SERVER FOR DELEGATED QUANTUM COMPUTING USING A HARDWARE ENCLAVE
Organization Name
Inventor(s)
METHOD AND SERVER FOR DELEGATED QUANTUM COMPUTING USING A HARDWARE ENCLAVE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240054383 titled 'METHOD AND SERVER FOR DELEGATED QUANTUM COMPUTING USING A HARDWARE ENCLAVE
Simplified Explanation
The invention is a quantum-enabled server that includes an enclave, a qubit source, and quantum-computing means. The enclave is responsible for receiving information from a remote client through a secured communication channel, determining transformation data from the information, transforming at least one qubit received from the qubit source according to the transformation data, and providing the transformed qubits to the quantum-computing means.
- The invention involves a quantum-enabled server with an enclave, qubit source, and quantum-computing means.
- The enclave receives information from a remote client securely and transforms qubits based on transformation data.
- The transformed qubits are then provided to the quantum-computing means for further processing.
Potential Applications
- Secure communication systems - Quantum computing platforms - Data encryption and decryption
Problems Solved
- Secure transmission of information - Efficient quantum computing - Data privacy and security
Benefits
- Enhanced data security - Improved quantum computing capabilities - Secure communication channels
Original Abstract Submitted
the invention relates, in particular, to a quantum-enabled server (s) comprising an enclave (se), a qubit source (ss), and quantum-computing means (sm), this enclave comprising means for: receiving information from a remote client through a secured communication channel; determining transformation data from said information; transforming at least one qubit received from said qubit source, according to transformation data; providing the at least one transformed qubits to said quantum-computing means.
