QUANTUM COMPUTING SYSTEMS, APPARATUS, AND METHODS

Organization Name

Intel Corporation

Inventor(s)

Stefano Pellerano of Beaverton OR (US)

Christopher Hull of Portland OR (US)

Todor Mladenov of Portland OR (US)

JongSeok Park of Hillsboro OR (US)

Ilya Klochkov of St. Petersburg (RU)

Sushil Subramanian of Hillsboro OR (US)

QUANTUM COMPUTING SYSTEMS, APPARATUS, AND METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240022248 titled 'QUANTUM COMPUTING SYSTEMS, APPARATUS, AND METHODS

Simplified Explanation

The patent application describes various apparatus and methods related to qubit control and detection, pulse generation, qubit state readout, and clock control. Here is a simplified explanation of the abstract:

• The patent application focuses on the interface between an integrated qubit control chip and a solid-state qubit.
• It proposes a method for detecting the state of a qubit using a transition pulse histogram.
• The invention also provides a technique for generating rectangular pulses with high resolution and high speed.
• Another aspect of the patent application is related to large-scale spin qubit state readout.
• Lastly, it introduces an activity-based clock control mechanism.

Potential Applications:

• Quantum computing: The technology described in the patent application can be applied in the field of quantum computing, specifically in the control and detection of qubits.
• Quantum communication: The methods and apparatus mentioned in the patent application can also find applications in quantum communication systems, enabling efficient qubit control and detection.
• Quantum sensing: The high-resolution pulse generation technique can be utilized in quantum sensing applications, enhancing the precision and speed of measurements.

Problems Solved:

• Qubit control and detection: The patent application addresses the challenges associated with interfacing an integrated qubit control chip and a solid-state qubit, providing a solution for efficient control and detection of qubit states.
• Pulse generation: The invention solves the problem of generating rectangular pulses with high resolution and high speed, which is crucial for various quantum applications.
• Large-scale qubit state readout: The technology described in the patent application offers a solution for large-scale spin qubit state readout, overcoming the limitations of current methods.

Benefits:

• Improved qubit control: The innovation described in the patent application enables more efficient and precise control of qubits, which is essential for the advancement of quantum technologies.
• Enhanced measurement capabilities: The high-resolution and high-speed pulse generation technique improves the measurement capabilities in quantum systems, leading to more accurate and faster results.
• Scalability: The large-scale spin qubit state readout approach proposed in the patent application allows for the scalability of quantum systems, facilitating the development of larger and more complex quantum devices.

Original Abstract Submitted

apparatus and methods for interfacing an integrated qubit control chip and a solid state qubit; detecting a qubit state with a transition pulse histogram; high resolution and high speed rectangular pulse generation; large-scale spin qubit state readout; and activity-based clock control.