Alibaba Damo (Hangzhou) Technology Co., Ltd. (20240330018). DECOMPOSITION OF TWO-QUBIT GATES simplified abstract

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DECOMPOSITION OF TWO-QUBIT GATES

Organization Name

Alibaba Damo (Hangzhou) Technology Co., Ltd.

Inventor(s)

Dawei Ding of San Diego CA (US)

Jiachen Huang of San Mateo CA (US)

Jianxin Chen of Kirkland WA (US)

DECOMPOSITION OF TWO-QUBIT GATES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240330018 titled 'DECOMPOSITION OF TWO-QUBIT GATES

    • Simplified Explanation:**

The patent application discusses generating a gate sequence for quantum computation by replacing specific two-qubit gates with ashn gates. This gate sequence is created using classical computing systems and involves identifying two-qubit gates to be replaced, generating locally equivalent ashn gates, and applying the gate sequence to the quantum computing system.

    • Key Features and Innovation:**

- Generation of gate sequences for quantum computation using ashn gates. - Replacement of two-qubit gates with locally equivalent ashn gates. - Utilization of classical computing systems to create gate sequences. - Incorporation of weyl coordinates x, y, and z in the generation process.

    • Potential Applications:**

- Quantum computing research and development. - Enhancing the efficiency and performance of quantum algorithms. - Implementing complex quantum operations with optimized gate sequences.

    • Problems Solved:**

- Streamlining the process of generating gate sequences for quantum computation. - Improving the accuracy and effectiveness of quantum algorithms. - Enhancing the scalability of quantum computing systems.

    • Benefits:**

- Increased speed and efficiency in quantum computations. - Reduction of errors and inaccuracies in quantum algorithms. - Facilitation of more complex quantum operations.

    • Commercial Applications:**

Title: "Optimizing Quantum Computing Operations with Ashn Gates" Potential commercial uses include: - Quantum computing software development. - Quantum cryptography systems. - Quantum machine learning applications.

    • Questions about Quantum Computing with Ashn Gates:**

1. How do ashn gates improve the performance of quantum algorithms? 2. What are the advantages of using classical computing systems to generate gate sequences for quantum computation?


Original Abstract Submitted

a gate sequence can be generated for performing a quantum computation by replacing certain two-qubit gates with ashn gates. the gate sequence can be generated by a classical computing system. generation of the gate sequence can include identifying, in the gate sequence, a two-qubit gate to be applied to two qubits of a quantum computing system. the two-qubit gate can be associated with weyl coordinates x, y, and z. an ashn gate can be generated that is locally equivalent to the two-qubit gate using characteristics of the two qubits and the weyl coordinates. the ashn gate can be included in the gate sequence in place of the identified two-qubit gate. the gate sequence can be applied to the quantum computing system to perform the quantum computation.