20240020561. QUANTUM SIMULATOR NETWORK FOR SIMULATING A QUANTUM SERVICE simplified abstract (RED HAT, INC.)
Contents
QUANTUM SIMULATOR NETWORK FOR SIMULATING A QUANTUM SERVICE
Organization Name
Inventor(s)
Stephen Coady of Waterford (IE)
Leigh Griffin of Waterford (IE)
QUANTUM SIMULATOR NETWORK FOR SIMULATING A QUANTUM SERVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240020561 titled 'QUANTUM SIMULATOR NETWORK FOR SIMULATING A QUANTUM SERVICE
Simplified Explanation
The abstract describes a patent application related to simulating quantum services. It involves obtaining a quantum service definition file with multiple instructions. Instruction sets are determined from these instructions and communicated to multiple quantum simulator nodes, each associated with a different configuration profile for a quantum computing device. Result sets, including performance metrics, are obtained from each simulator node for each instruction set. A composite result set is determined based on the result sets from each simulator node.
- The patent application involves simulating quantum services using quantum simulator nodes.
- A quantum service definition file with multiple instructions is obtained.
- Instruction sets are determined from the instructions.
- Each instruction set is communicated to multiple quantum simulator nodes.
- Each simulator node is associated with a different configuration profile for a quantum computing device.
- Result sets, including performance metrics, are obtained from each simulator node for each instruction set.
- A composite result set is determined based on the result sets from each simulator node.
Potential Applications:
- Quantum service simulation for testing and optimization purposes.
- Developing and refining quantum algorithms and applications.
- Evaluating the performance of different quantum computing device configurations.
Problems Solved:
- Lack of efficient and scalable methods for simulating quantum services.
- Difficulty in evaluating the performance of quantum computing devices and configurations.
- Limited ability to test and optimize quantum algorithms and applications.
Benefits:
- Enables efficient and scalable simulation of quantum services.
- Facilitates the evaluation and comparison of different quantum computing device configurations.
- Provides a platform for testing, optimizing, and refining quantum algorithms and applications.
Original Abstract Submitted
examples relating to simulating quantum services are provided. in one example, a quantum service definition file comprising a plurality of instructions is obtained. one or more instruction sets are determined from the plurality of instructions. each instruction set is communicated to a plurality of quantum simulator nodes. each quantum simulator node is associated with a different configuration profile for a quantum computing device. for each instruction set, a result set is obtained from each quantum simulator node. the result set includes data indicative of one or more performance metrics associated with an execution of the instruction set by a quantum computing device. a composite result set is determined based at least in part on the result set from each quantum simulator node.