INTELLIGENT ORCHESTRATION OF QUANTUM PROGRAMS USING SMART CONTRACTS LINKED TO QUANTUM PROGRAM NON-FUNGIBLE TOKENS

Organization Name

BANK OF AMERICA CORPORATION

Inventor(s)

Shailendra Singh of Maharashtra (IN)

INTELLIGENT ORCHESTRATION OF QUANTUM PROGRAMS USING SMART CONTRACTS LINKED TO QUANTUM PROGRAM NON-FUNGIBLE TOKENS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240281688 titled 'INTELLIGENT ORCHESTRATION OF QUANTUM PROGRAMS USING SMART CONTRACTS LINKED TO QUANTUM PROGRAM NON-FUNGIBLE TOKENS

Simplified Explanation: The patent application describes a system for orchestrating quantum programs using smart contracts linked to non-fungible tokens (NFTs). These NFTs represent quantum programs and are stored on a distributed ledger controlled by smart contracts. The system validates quantum programs for specific quantum hardware by verifying the associated NFTs, allowing for quantum processing to be performed on the target hardware.

• Quantum programs are received from a digital computing device.
• Non-fungible tokens (NFTs) are created for each quantum program and linked to the program.
• NFTs are stored on a distributed ledger and controlled by smart contracts with predefined acceptance rules.
• Quantum programs are validated for specific quantum hardware by validating the associated NFTs.
• Quantum processing is performed on the validated quantum programs on the target hardware.
• Output of quantum processing meeting acceptance criteria is deployed back to the digital computing device.

Potential Applications: 1. Quantum computing research and development. 2. Secure and efficient execution of quantum programs. 3. Management of quantum program deployment on various hardware.

Problems Solved: 1. Ensuring compatibility of quantum programs with target hardware. 2. Secure storage and validation of quantum programs. 3. Efficient orchestration of quantum processing tasks.

Benefits: 1. Improved reliability and security of quantum program execution. 2. Streamlined deployment of quantum programs on diverse hardware. 3. Enhanced control and management of quantum processing tasks.

Commercial Applications: Quantum computing service providers can utilize this system to offer secure and efficient quantum program execution services to clients. This technology can also be applied in research institutions for managing and validating quantum programs for experimental purposes.

Questions about Quantum Program Orchestration: 1. How does the system ensure the security and integrity of quantum programs during orchestration? 2. What are the potential limitations or challenges in deploying quantum programs using this system?

Frequently Updated Research: Ongoing research in quantum computing and blockchain technology may provide further insights into the optimization and scalability of quantum program orchestration systems. Stay updated on advancements in quantum computing algorithms and hardware to enhance the efficiency of quantum program execution.

Original Abstract Submitted

arrangements for intelligent orchestration of quantum programs using smart contracts linked to quantum program non-fungible tokens (nfts) are provided. a plurality of quantum programs to be executed on target quantum hardware may be received from a digital computing device. nfts representing each of the plurality of quantum programs may be created and linked to a corresponding quantum program. the nfts may be stored on a distributed ledger and controlled by smart contracts storing predefined acceptance rules based on which a quantum processing output is deployed to the digital computing device. a quantum program may be validated for respective target quantum hardware by validating the nft associated with the quantum program. the respective target quantum hardware may ingest the validated quantum program and perform quantum processing. responsive the output of quantum processing meeting the predefined acceptance criterion, the output of the quantum processing may be deployed in the digital computing device.