METHOD FOR PROCESSING QUANTUM COMPUTING TASK, DEVICE, AND STORAGE MEDIUM

Organization Name

Beijing Baidu Netcom Science Technology Co., Ltd.

Inventor(s)

Zelin Meng of Beijing (CN)

Xueyi Guo of Beijing (CN)

Zixian Yan of Beijing (CN)

METHOD FOR PROCESSING QUANTUM COMPUTING TASK, DEVICE, AND STORAGE MEDIUM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240281689 titled 'METHOD FOR PROCESSING QUANTUM COMPUTING TASK, DEVICE, AND STORAGE MEDIUM

Simplified Explanation: The patent application describes a method for processing quantum computing tasks, involving dividing tasks into processing stages and performing them sequentially or in parallel.

• The method involves performing a first quantum computing task (QCT) to obtain an executable pulse sequence, sending it to a quantum computing device (QCD), and performing a second QCT in parallel.
• The executable pulse sequence of the second QCT is sent to the QCD once the first QCT is completed.
• This approach optimizes the processing of quantum computing tasks by maximizing efficiency and parallel processing capabilities.

Key Features and Innovation:

• Sequential and parallel processing of quantum computing tasks.
• Division of tasks into processing stages for optimization.
• Sending executable pulse sequences to a quantum computing device for execution.
• Efficient management of multiple quantum computing tasks.

Potential Applications:

• Quantum computing research and development.
• Quantum simulations and modeling.
• Cryptography and secure communications.
• Optimization problems in various industries.
• Machine learning and artificial intelligence.

Problems Solved:

• Efficient processing of quantum computing tasks.
• Optimization of quantum computing resources.
• Management of multiple tasks in parallel.
• Improved performance of quantum computing devices.

Benefits:

• Increased efficiency in quantum computing tasks.
• Faster processing of complex algorithms.
• Enhanced utilization of quantum computing resources.
• Improved scalability and performance of quantum systems.

Commercial Applications: The technology can be applied in industries such as finance, healthcare, logistics, and cybersecurity for advanced data processing, optimization, and secure communications.

Questions about Quantum Computing: 1. How does parallel processing improve the efficiency of quantum computing tasks? 2. What are the potential challenges in implementing sequential and parallel processing in quantum computing systems?

Original Abstract Submitted

provided is a method for processing quantum computing tasks, a device, and a storage medium. the method includes: performing, in a case where a first quantum computing task (qct) is performed to a pulse compilation stage according to an order in which a plurality of processing stages are performed sequentially, the pulse compilation stage of the first qct, to obtain an executable pulse sequence of the first qct, where the first and second qcts are respectively divided into the plurality of processing stages; sending the executable pulse sequence to a quantum computing device (qcd); performing, according to the order in which the plurality of processing stages are performed, the second qct in parallel, during performing the plurality of processing stages of the first qct; and sending an executable pulse sequence of the second qct to the qcd, in a case of determining the qcd has completed the first qct.