DETERMINING DYNAMIC QUANTUM ERROR CORRECTION SCHEMES

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)

Lior Gazit of Tel-Aviv (IL)

DETERMINING DYNAMIC QUANTUM ERROR CORRECTION SCHEMES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240289675 titled 'DETERMINING DYNAMIC QUANTUM ERROR CORRECTION SCHEMES

The abstract describes a method, apparatus, and product for generating a physical representation of a quantum circuit to implement error correction operations.

• Obtaining a logical representation of a quantum circuit with logical qubits and gates.
• Generating a physical representation to allocate physical qubits for error correction.
• Selecting quantities of physical qubits for different sections of the quantum circuit.
• Synthesizing the quantum circuit using the allocated physical qubits.

Potential Applications: - Quantum computing - Error correction in quantum circuits - Advanced computing technologies

Problems Solved: - Error correction in quantum computing - Efficient allocation of physical qubits - Implementation of complex quantum algorithms

Benefits: - Improved accuracy in quantum computations - Enhanced error correction capabilities - Optimal utilization of physical qubits

Commercial Applications: Title: Quantum Error Correction Technology for Advanced Computing Systems Description: This technology can be utilized in industries requiring high-performance computing, such as finance, healthcare, and scientific research. It can also benefit companies developing quantum computers and quantum algorithms.

Prior Art: Readers can explore prior research on quantum error correction techniques, quantum circuit optimization, and quantum computing advancements to understand the background of this technology.

Frequently Updated Research: Stay updated on the latest developments in quantum error correction, quantum computing hardware, and optimization algorithms to enhance the efficiency and effectiveness of this technology.

Questions about Quantum Error Correction Technology: 1. How does this technology contribute to the advancement of quantum computing? 2. What are the key challenges in implementing error correction in quantum circuits?

Original Abstract Submitted

a method, apparatus and product comprising: obtaining a logical representation of a quantum circuit, wherein the logical representation comprises a plurality of logical qubits manipulated by a plurality of logical gates; and generating a physical representation of the quantum circuit, the physical representation is configured to allocate a set of physical qubits of a quantum computer to the plurality of logical qubits in order to implement error correction operations the generating includes selecting a first quantity of physical qubits from the set of physical qubits for a first separate section of the quantum circuit; selecting a second quantity of physical qubits from the set of physical qubits for a second separate section of the quantum circuit, and synthesizing the quantum circuit using the first and second quantities for the first and second separate sections.