Detecting a Function Section in a Representation of a Quantum Circuit

Organization Name

Classiq Technologies LTD.

Inventor(s)

Amir Haveh of Haifa (IL)

Shmuel Ur of Shorashim (IL)

Eyal Cornfeld of Ramat Gan (IL)

Ofek Kirzner of Haifa (IL)

Nir Minerbi of Haifa (IL)

Detecting a Function Section in a Representation of a Quantum Circuit - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240044973 titled 'Detecting a Function Section in a Representation of a Quantum Circuit

Simplified Explanation

The abstract describes a method, apparatus, and product for analyzing a quantum circuit. The method involves obtaining a representation of the quantum circuit and determining if a qubit is a candidate auxiliary qubit by comparing its state at two different cycles. A function section in the quantum circuit is then identified based on the qubit, with the section utilizing the qubit as an auxiliary qubit. An indication of the function section is outputted.

• The method involves analyzing a quantum circuit and identifying a specific section within it.
• The analysis includes estimating the state of a qubit at different cycles and determining if it can be used as an auxiliary qubit.
• The identified function section in the quantum circuit utilizes the qubit as an auxiliary qubit.
• The output of the method provides an indication of the identified function section.

Potential applications of this technology:

• Quantum computing: This method can be used to analyze and optimize quantum circuits, improving the efficiency and performance of quantum computing systems.
• Quantum simulation: By identifying specific function sections in a quantum circuit, this technology can aid in simulating and understanding complex quantum systems.

Problems solved by this technology:

• Circuit optimization: The method helps identify and optimize specific sections of a quantum circuit, leading to improved circuit efficiency and performance.
• Error detection and correction: By analyzing the state of qubits at different cycles, this technology can assist in detecting and correcting errors in quantum circuits.

Benefits of this technology:

• Improved efficiency: By identifying and optimizing function sections, this technology can enhance the overall efficiency of quantum circuits and systems.
• Error reduction: The analysis of qubit states can help identify and correct errors, leading to more reliable and accurate quantum computations.

Original Abstract Submitted

a method, apparatus, and product comprising: obtaining a representation of a quantum circuit; determining that a qubit is a candidate auxiliary qubit by estimating that a state of the qubit at a first cycle is identical to a state of the qubit at a second cycle; identifying a function section in the quantum circuit based on the qubit, the function section commencing at a beginning cycle, the beginning cycle is ordered before the second cycle, the function section ending at an ending cycle, the ending cycle is ordered after the first cycle, the ending cycle is ordered after the commencing cycle, the function section utilizing the qubit as an auxiliary qubit; and outputting an indication of the function section.