Universal Quantum Ltd (20240296363). QUANTUM COMPUTING simplified abstract
Contents
QUANTUM COMPUTING
Organization Name
Inventor(s)
Richard North of Brighton (GB)
QUANTUM COMPUTING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240296363 titled 'QUANTUM COMPUTING
The abstract of the patent application describes a timing system for an ion trap quantum computer that includes a clock outputting a timing signal of period t, multiple delay lines connected to the clock, each capable of inputting a different delay less than t, and a delay selection mechanism to choose the delay where each delay line represents a unique fraction of the period t.
- Clock outputs timing signal of period t
- Multiple delay lines input different delays less than t
- Delay selection mechanism chooses delay for each delay line
- Each delay line represents a different fraction of the period t
Potential Applications: - Quantum computing - High-speed data processing - Precision timing systems
Problems Solved: - Synchronization of processes in quantum computing - Minimization of timing errors - Optimization of computational speed
Benefits: - Improved accuracy in quantum computations - Enhanced performance of quantum computers - Increased efficiency in data processing tasks
Commercial Applications: Title: "Advanced Timing System for Quantum Computers" This technology can be used in industries such as: - Information technology - Telecommunications - Financial services
Questions about the technology: 1. How does the timing system improve the performance of ion trap quantum computers? - The timing system ensures precise synchronization of processes, reducing errors and optimizing computational speed. 2. What are the potential challenges in implementing this timing system in quantum computing systems? - Challenges may include integration with existing systems, calibration, and maintenance requirements.
Original Abstract Submitted
according to the invention, there is provided a timing system for an ion trap quantum computer comprising a clock outputting a timing signal of period t, a plurality of delay lines coupled to the clock and each configured to input a different delay of less than t and a delay selection mechanism configured to select the delay wherein the delay by each of the delay lines is a different fraction of the period t.
