INPUT-BASED MODIFICATION OF A QUANTUM CIRCUIT

Organization Name

Classiq Technologies LTD.

Inventor(s)

Amir Naveh of Haifa (IL)

Shmuel Ur of Shorashim (IL)

Eyal Cornfeld of Ramat Gan (IL)

Ofek Kirzner of Haifa (IL)

Yehuda Naveh of Tel-Aviv Yafo (IL)

INPUT-BASED MODIFICATION OF A QUANTUM CIRCUIT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240281686 titled 'INPUT-BASED MODIFICATION OF A QUANTUM CIRCUIT

The abstract of this patent application describes a method, system, and product for obtaining quantum state data from a simulation of a portion of a quantum circuit. This data is used to determine a modification of the quantum circuit, generate a modified quantum circuit, and execute it on a quantum computer.

• The method involves obtaining quantum state data from a simulation of a portion of a quantum circuit.
• The quantum circuit is configured to prepare input values on input qubits and produce an output value based on the manipulation of the input qubits.
• Based on the quantum state data, a modification of the quantum circuit is determined.
• A modified quantum circuit is generated to produce the output value.
• The modified quantum circuit is then executed on a quantum computer.

Potential Applications: - Quantum computing research and development - Quantum algorithm optimization - Quantum error correction techniques

Problems Solved: - Enhancing the efficiency and accuracy of quantum circuits - Facilitating the development of complex quantum algorithms - Improving the performance of quantum computers

Benefits: - Increased computational power for quantum applications - Enhanced simulation capabilities for quantum systems - Advancement of quantum computing technology

Commercial Applications: Title: Quantum Circuit Optimization System This technology can be utilized in industries such as: - Finance for complex calculations - Healthcare for drug discovery simulations - Logistics for optimization problems

Questions about Quantum Circuit Optimization System: 1. How does this technology improve the performance of quantum circuits?

  - This technology enhances the efficiency and accuracy of quantum circuits by optimizing their design based on quantum state data.

2. What are the potential applications of a modified quantum circuit?

  - A modified quantum circuit can be used in various fields such as quantum computing research, algorithm optimization, and error correction techniques.

Original Abstract Submitted

a method, system, and product, the method including obtaining quantum state data from a simulation of a portion of a quantum circuit. the portion of the quantum circuit is configured to prepare input values on input qubits of the quantum circuit. the portion of the quantum circuit is configured to produce an output value based on a manipulation of the input qubits when having the input values, with the quantum state data including the input values and the output value. the method further includes, based on the quantum state data, determining a modification of the quantum circuit. based on the determining of the modification of the quantum circuit, the method generates a modified quantum circuit that is configured to produce the output value. the method then includes executing the modified quantum circuit on a quantum computer.