GENERATING A GRAPHICAL REPRESENTATION OF A QUANTUM CIRCUIT

Organization Name

Classiq Technologies LTD.

Inventor(s)

Amir Naveh of Haifa (IL)

Shmuel Ur of Shorashim (IL)

Lior Gazit of Tel Aviv (IL)

Ofek Kirzner of Haifa (IL)

Nir Minerbi of Haifa (IL)

GENERATING A GRAPHICAL REPRESENTATION OF A QUANTUM CIRCUIT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240013079 titled 'GENERATING A GRAPHICAL REPRESENTATION OF A QUANTUM CIRCUIT

Simplified Explanation

The patent application describes a method, apparatus, and product for manipulating a quantum circuit that operates on multiple qubits over multiple cycles. The method involves obtaining a representation of the quantum circuit that defines the order of the qubits in the circuit. A different order of the qubits is then determined based on an objective function that provides scores based on the lengths of circuit components in graphical representations of the circuit. A graphical representation of the circuit is generated and displayed according to the determined order of the qubits.

• The patent application focuses on manipulating a quantum circuit that operates on multiple qubits.
• The method involves obtaining a representation of the circuit and determining a different order of the qubits based on an objective function.
• A graphical representation of the circuit is generated and displayed according to the determined order of the qubits.

Potential Applications:

• Quantum computing: This technology can be applied in the field of quantum computing to efficiently manipulate and control quantum circuits operating on multiple qubits.

Problems Solved:

• Order optimization: The technology solves the problem of determining the most efficient order of qubits in a quantum circuit, which can improve the performance and accuracy of quantum computations.

Benefits:

• Improved efficiency: By determining the optimal order of qubits, the technology can enhance the efficiency of quantum computations, leading to faster and more accurate results.
• Enhanced control: The ability to manipulate and control quantum circuits operating on multiple qubits can enable researchers and scientists to explore complex quantum algorithms and simulations.

Original Abstract Submitted

a method, apparatus, and product includes obtaining a representation of a quantum circuit that is configured to manipulate a plurality of qubits over a plurality of cycles where the representation defines a first order of the plurality of qubits. a second order of the plurality of qubits is determined that is different from the first order of the plurality of qubits, wherein said determining the second order is based on an objective function that is configured to provide scores based on respective lengths of circuit components in graphical representations of the quantum circuit. a graphical representation of the quantum circuit is generated that displays the plurality of qubits in accordance with the second order, and the graphical representation is displayed.