APPARATUS AND METHOD INCLUDING SCALABLE REPRESENTATIONS OF ARBITRARY QUANTUM COMPUTING ROTATIONS

Organization Name

Intel Corporation

Inventor(s)

XIANG Zou of Hillsboro OR (US)

SHAVINDRA Premaratne of Portland OR (US)

APPARATUS AND METHOD INCLUDING SCALABLE REPRESENTATIONS OF ARBITRARY QUANTUM COMPUTING ROTATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240346348 titled 'APPARATUS AND METHOD INCLUDING SCALABLE REPRESENTATIONS OF ARBITRARY QUANTUM COMPUTING ROTATIONS

Simplified Explanation:

This patent application describes an apparatus and method for performing quantum rotation operations. It involves decoding instructions, executing instructions to generate and compress floating-point values, and processing these values to perform quantum rotations on a quantum processor.

• Decoder to decode instructions
• Execution circuitry to generate and store floating-point values
• Compression of floating-point values for quantum rotation operations
• Quantum interface circuitry to process compressed values for quantum rotations

Key Features and Innovation:

• Decoding and executing instructions for quantum rotation operations
• Compression of floating-point values for precision in quantum operations
• Quantum interface circuitry for processing compressed values

Potential Applications:

• Quantum computing
• Quantum simulations
• Quantum algorithms

Problems Solved:

• Enhancing precision in quantum rotation operations
• Efficient processing of floating-point values in quantum systems

Benefits:

• Improved accuracy in quantum rotations
• Enhanced performance of quantum processors

Commercial Applications:

The technology can be utilized in industries such as finance, cryptography, and scientific research for advanced computational tasks requiring quantum processing capabilities.

Prior Art:

Prior art related to this technology can be found in research papers, patents, and academic publications on quantum computing and quantum algorithms.

Frequently Updated Research:

Stay updated on the latest advancements in quantum computing, quantum algorithms, and quantum simulation techniques to understand the evolving landscape of this technology.

Questions about Quantum Rotation Operations:

1. What are the key challenges in implementing quantum rotation operations efficiently? 2. How does the compression of floating-point values impact the precision of quantum rotations?

Original Abstract Submitted

apparatus and method for performing a quantum rotation operation. for example, one embodiment of an apparatus comprises: a decoder to decode a plurality of instructions; execution circuitry to execute a first instruction or first set of the instructions to generate a floating point (fp) value and to store the fp value in a first register; the execution circuitry to execute a second instruction or second set of the one or more of the instructions to read the fp value from the first register and compress the fp value to generate a compressed fp value having a precision selected for performing quantum rotation operations; and quantum interface circuitry to process the compressed fp value to cause a quantum rotation to be performed on one or more qubits of a quantum processor.