International Business Machines Corporation (20240330736). RESOURCE-EFFICIENT PULSE-BASED VARIATIONAL QUANTUM ALGORITHM simplified abstract
Contents
RESOURCE-EFFICIENT PULSE-BASED VARIATIONAL QUANTUM ALGORITHM
Organization Name
International Business Machines Corporation
Inventor(s)
Panagiotis Barkoutsos of Zurich (CH)
Bibek Babu Pokharel of Los Angeles CA (US)
Daniel Josef Egger of Zurich (CH)
Ivano Tavernelli of Zurich (CH)
Laurin Elias Fischer of Zurich (CH)
RESOURCE-EFFICIENT PULSE-BASED VARIATIONAL QUANTUM ALGORITHM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240330736 titled 'RESOURCE-EFFICIENT PULSE-BASED VARIATIONAL QUANTUM ALGORITHM
The patent application describes a method, computer system, and computer program product for a resource-efficient pulse-based variational quantum circuit running on selected quantum hardware to solve a predefined problem.
- Controlling the execution of multiple quantum circuits using the selected quantum hardware for the predefined problem
- Evaluating the performance of each quantum circuit
- Selecting the best performing quantum circuit
- Generating a pulse sequence tailored to the selected quantum hardware and problem
- Determining a simplified pulse schedule for the pulse sequence
Potential Applications: - Quantum computing - Optimization problems - Machine learning algorithms
Problems Solved: - Resource efficiency in quantum computing - Tailoring pulse sequences to specific hardware - Improving the performance of quantum circuits
Benefits: - Enhanced efficiency in solving predefined problems - Optimized pulse schedules for quantum hardware - Improved performance of quantum circuits
Commercial Applications: Title: "Resource-Efficient Quantum Computing Solutions for Optimization Problems" This technology can be applied in industries such as finance, healthcare, and logistics for solving complex optimization problems efficiently.
Questions about the technology: 1. How does this method improve the performance of quantum circuits? 2. What are the potential implications of using tailored pulse sequences in quantum computing?
Frequently Updated Research: Stay updated on the latest advancements in quantum computing and optimization algorithms to enhance the efficiency of pulse-based variational quantum circuits.
Original Abstract Submitted
a method, computer system, and a computer program product for a resource-efficient pulse-based variational quantum circuit running on a selected quantum hardware to solve a given predefined problem. the present invention may include controlling an execution of a plurality of different quant controlling an execution of a plurality of different quantum circuits using the selected quantum hardware for the given predefined problem to be solved, evaluating a performance of each of the plurality of different quantum circuits, selecting a best performing one of the plurality of quantum circuits, generating a pulse sequence having a pulse schedule tailored to the selected quantum hardware and the given problem for the best performing one of the plurality of the different quantum circuits, and determining a simplified pulse schedule of the pulse sequence, thereby producing an efficient pulse-based schedule that acts as a pulse-based variational form for the best performing quantum circuit.