The University of Chicago (20240378085). SYSTEM AND METHOD OF IN-QUEUE OPTIMIZATIONS FOR QUANTUM CLOUD COMPUTING simplified abstract

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SYSTEM AND METHOD OF IN-QUEUE OPTIMIZATIONS FOR QUANTUM CLOUD COMPUTING

Organization Name

The University of Chicago

Inventor(s)

Gokul Subramanian Ravi of Chicago IL (US)

Frederic T. Chong of Chicago IL (US)

Pranav Gokhale of Chicago IL (US)

Kaitlin N. Smith of Chicago IL (US)

SYSTEM AND METHOD OF IN-QUEUE OPTIMIZATIONS FOR QUANTUM CLOUD COMPUTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240378085 titled 'SYSTEM AND METHOD OF IN-QUEUE OPTIMIZATIONS FOR QUANTUM CLOUD COMPUTING

Simplified Explanation:

This patent application describes a quantum computing system that offers quantum processing as a service. The system includes a quantum computing device and a server with at least one classical processor. The server creates job queues for quantum programs, optimizes quantum circuits, executes them on the quantum computing device, and transmits the results back to the client device.

  • Quantum computing system providing quantum processing as a service
  • Includes a quantum computing device and a server with classical processors
  • Server creates job queues for quantum programs
  • Optimizes quantum circuits for efficient execution
  • Executes quantum circuits on the quantum computing device
  • Transmits execution results back to the client device

Potential Applications:

1. Quantum computing research and development 2. Secure communications and cryptography 3. Optimization problems in various industries 4. Drug discovery and molecular modeling 5. Financial modeling and risk analysis

Problems Solved:

1. Efficient execution of quantum programs 2. Access to quantum computing resources remotely 3. Optimization of quantum circuits for better performance 4. Integration of classical and quantum computing technologies 5. Scalability of quantum processing for different applications

Benefits:

1. Faster execution of quantum programs 2. Cost-effective access to quantum computing resources 3. Improved performance through circuit optimization 4. Enhanced security for sensitive data processing 5. Versatile applications across industries

Commercial Applications:

Title: Quantum Computing as a Service: Commercial Uses and Market Implications

This technology can be utilized in cloud computing services, cybersecurity firms, research institutions, pharmaceutical companies, and financial institutions. The market for quantum computing services is expected to grow as more industries adopt quantum technologies for various applications.

Prior Art:

Readers interested in prior art related to this technology can explore research papers, patents in the field of quantum computing, and academic publications on quantum algorithms and optimization techniques.

Frequently Updated Research:

Researchers are constantly exploring new algorithms, error correction techniques, and hardware advancements in the field of quantum computing. Stay updated on platforms like arXiv and Quantum Computing Report for the latest developments.

Questions about Quantum Computing as a Service:

1. How does quantum computing as a service differ from traditional quantum computing? 

  Quantum computing as a service allows users to access quantum processing resources remotely, similar to cloud computing services. This model provides scalability, cost-effectiveness, and ease of access for users who may not have direct access to quantum hardware.

2. What are the potential security implications of transmitting quantum programs and results over a network? 

  Transmitting quantum programs and results over a network raises concerns about data security and privacy. Encryption techniques and secure communication protocols are essential to protect sensitive quantum information from unauthorized access or tampering.


Original Abstract Submitted

a quantum computing system providing quantum processing as a service includes a quantum computing device and a server including at least one classical processor. the server is configured to: create a first job queue that includes a plurality of jobs configured to be executed on the first quantum computing device; receive, from a client device, a request for execution of a quantum program; add a first job entry to the first job queue for the request, the first job entry includes a quantum circuit for a first job; perform an optimization process on the quantum circuit of the first job; transmit the updated quantum circuit to the first quantum computing device for execution by the first quantum computing device using the plurality of qubits; receive, from the quantum computing device, execution results from the execution of the updated quantum circuit; and transmit the execution results to the client device.

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