METHODS AND SYSTEMS FOR PATCH-BY-PATCH CHARACTERIZATION OF QUANTUM PROCESSORS

Organization Name

QEDMA Quantum Computing

Inventor(s)

Dorit Aharonov of Jerusalem (IL)

Ori Alberton of Tel-Aviv (IL)

Eyal Bairey of Tel-Aviv (IL)

Omri Golan of Rehovot (IL)

Or Golan of Herzliya (IL)

Avraham Haber of Petah Tikva (IL)

Yaron Itkin of Tel Aviv (IL)

Oded Kenneth of Tel-Aviv (IL)

Yotam Lifshitz of Shimshit (IL)

Netanel Lindner of Aviel (IL)

Adiel Berman of Tel-Aviv (I)

Omrie Ovdat of Pardesia (IL)

Assaf Zubida of Ramat Gan (IL)

METHODS AND SYSTEMS FOR PATCH-BY-PATCH CHARACTERIZATION OF QUANTUM PROCESSORS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240249172 titled 'METHODS AND SYSTEMS FOR PATCH-BY-PATCH CHARACTERIZATION OF QUANTUM PROCESSORS

The present disclosure introduces a method for characterizing a quantum processor with multiple qubits by applying a characterization protocol to a subset of qubits known as a qubit patch. This protocol aims to reduce 'patching errors,' which are systematic errors caused by interactions between qubits within the patch and those outside of it.

• The method involves applying a characterization protocol to a qubit patch containing a subset of qubits.
• The protocol focuses on reducing 'patching errors' that result from interactions between qubits inside and outside the patch.

Potential Applications: - Quantum computing research and development - Improving the performance and accuracy of quantum processors

Problems Solved: - Addressing systematic errors in quantum processors caused by interactions between qubits within and outside a patch

Benefits: - Enhanced accuracy and reliability of quantum processors - Improved efficiency in quantum computing tasks

Commercial Applications: Title: Quantum Processor Characterization Method for Enhanced Performance This technology can be utilized in quantum computing research labs, tech companies developing quantum processors, and academic institutions studying quantum information processing.

Questions about Quantum Processor Characterization Method: 1. How does the characterization protocol help reduce 'patching errors' in quantum processors? The protocol identifies and mitigates systematic errors caused by interactions between qubits within and outside a patch, improving the overall performance of the quantum processor.

2. What are the potential implications of reducing 'patching errors' in quantum computing research and development? By minimizing these errors, researchers can achieve more accurate results and advance the capabilities of quantum processors for various applications.

Original Abstract Submitted

the present disclosure provides a method for characterizing a quantum processor including a plurality of qubits. the method comprising applying a characterization protocol to a qubit patch including a subset of qubits. the characterization protocol includes the reduction of ‘patching errors’—systematic characterization errors occurring due to interactions between qubits inside the patch and qubits outside the patch.