DYNAMIC QUANTUM INSTRUCTION FILE CUSTOMIZATION

Organization Name

RED HAT, INC.

Inventor(s)

Leigh Griffin of Waterford (IE)

Stephen Coady of Dublin (IE)

DYNAMIC QUANTUM INSTRUCTION FILE CUSTOMIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240289662 titled 'DYNAMIC QUANTUM INSTRUCTION FILE CUSTOMIZATION

Simplified Explanation: The patent application involves submitting a quantum instruction file (QIF) with quantum programming instructions to a quantum computing system (QCS). The QIF includes a function identifier that specifies a function to be executed. A programming instruction set is obtained from a configuration structure corresponding to the QCS, which implements the identified function when executed. The QIF is modified to include the programming instruction set and then submitted to the QCS for execution.

• **Key Features and Innovation:**

   - Submission of a QIF with quantum programming instructions to a QCS.
   - Identification of a function to be executed within the QIF.
   - Obtaining a programming instruction set from a configuration structure to implement the identified function.
   - Modification of the QIF to include the programming instruction set for execution on the QCS.

• **Potential Applications:**

   - Quantum computing tasks requiring specific functions to be executed.
   - Development of quantum algorithms and applications.
   - Research in quantum information processing and computation.

• **Problems Solved:**

   - Efficient execution of specific functions on a quantum computing system.
   - Streamlining the process of programming quantum instructions.
   - Enhancing the capabilities of quantum computing systems.

• **Benefits:**

   - Improved performance and accuracy in executing quantum functions.
   - Simplified programming process for quantum tasks.
   - Enhanced flexibility in implementing various functions on a QCS.

• **Commercial Applications:**

   - Quantum software development for industries like finance, healthcare, and cybersecurity.
   - Integration of quantum computing in research institutions and academic settings.
   - Potential for quantum computing service providers to offer tailored solutions.

• **Prior Art:**

   - Readers can explore existing patents related to quantum programming languages and quantum instruction execution on QCS.

• **Frequently Updated Research:**

   - Stay updated on advancements in quantum programming languages and quantum computing systems for efficient task execution.

Questions about Quantum Instruction File (QIF): 1. What are the key components of a quantum instruction file (QIF) in quantum computing? 2. How does the modification of a QIF impact the execution of functions on a quantum computing system?

Original Abstract Submitted

it is determined that a quantum instruction file (qif) that includes quantum programming instructions is to be submitted for execution on a quantum computing system (qcs). a function identifier is identified in the qif that identifies a function of a plurality of functions. a programming instruction set is obtained from a configuration structure that corresponds to the qcs that, upon execution, implements the function. the configuration structure identifies a plurality of programming instruction sets written in a programming language syntax, each programming instruction set, when executed on the qcs, operable to implement a corresponding function of a plurality of different functions. the qif is modified to include the programming instruction set to generate a modified qif. the modified qif is caused to be submitted to the qcs for execution in lieu of the qif.