METHODS AND SYSTEMS FOR PATCH-BY-PATCH CHARACTERIZATION OF QUANTOM 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 Herzeliya (IL)

Avraham Eliyahu Haber of Petah Tikva (IL)

Yaron Itkin of Tel Aviv (IL)

Oded Kenneth of Tel-Aviv (IL)

Yotam Yona Lifshitz of Shimshit (IL)

Netanel Hanan Lindner of Aviel (IL)

Adiel Reuvan Meyer Berman of Tel-Aviv (IL)

Omrie Ovdat of Pardesia (IL)

Assaf Zubida of Ramat Gan (IL)

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

This abstract first appeared for US patent application 20240046131 titled 'METHODS AND SYSTEMS FOR PATCH-BY-PATCH CHARACTERIZATION OF QUANTOM PROCESSORS

Simplified Explanation

The present disclosure describes a method for characterizing a quantum processor that consists of multiple qubits. The method involves applying a characterization protocol to a subset of qubits called a qubit patch. The characterization protocol includes reducing "patching errors," which are systematic characterization errors caused by interactions between qubits inside and outside the patch.

• The method characterizes a quantum processor with multiple qubits.
• A characterization protocol is applied to a subset of qubits called a qubit patch.
• The protocol addresses "patching errors" caused by interactions between qubits inside and outside the patch.

Potential Applications:

• Improving the performance and reliability of quantum processors.
• Enhancing the accuracy of quantum computations.
• Enabling better control and manipulation of qubits in quantum systems.

Problems Solved:

• Reducing systematic characterization errors caused by qubit interactions.
• Improving the accuracy of quantum processor characterization.
• Addressing the challenges of characterizing large-scale quantum processors.

Benefits:

• Enhanced performance and reliability of quantum processors.
• Increased accuracy and precision in quantum computations.
• Improved understanding and control of qubit interactions in quantum systems.

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.