HERALDING-FREE CONNECTIONS IN QUANTUM COMPUTING

Organization Name

QUANTUM SOURCE LABS LTD.

Inventor(s)

Gil Semo of Tel-Aviv (IL)

Ziv Aqua of Rehovot (IL)

Oded Melamed of Shoham (IL)

Dan Charash of Herzliya (IL)

Serge Rosenblum of Rehovot (IL)

Barak Dayan of Tel-Aviv (IL)

HERALDING-FREE CONNECTIONS IN QUANTUM COMPUTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240346354 titled 'HERALDING-FREE CONNECTIONS IN QUANTUM COMPUTING

Simplified Explanation: The patent application describes systems and methods for quantum computing using photonic processing stages and heralding-free connections to regulate photon flow between stages without input from a previous stage.

• Photonic processing stages with optical switches, beam splitters, waveguides, or photon generators
• Herald-free connections between adjacent stages
• Regulating photon flow without input from a previous stage

Key Features and Innovation:

• Plurality of photonic processing stages
• Herald-free connections between stages
• Regulated photon flow without input from a previous stage
• Optical switches, beam splitters, waveguides, or photon generators in each processing stage

Potential Applications:

• Quantum computing
• Photonics technology
• Communication systems

Problems Solved:

• Efficient photon flow regulation
• Elimination of input dependency from previous stages
• Enhanced quantum computing performance

Benefits:

• Improved quantum computing efficiency
• Enhanced communication systems
• Streamlined photon flow regulation

Commercial Applications: Potential commercial applications include:

• Quantum computing technology companies
• Telecommunications industry
• Research institutions focusing on photonics

Prior Art: Prior art related to this technology may include research on:

• Photonic processing in quantum computing
• Herald-free connections in photonics

Frequently Updated Research: Stay updated on the latest advancements in:

• Quantum computing
• Photonics technology

Questions about Quantum Computing: 1. How does quantum computing differ from classical computing? 2. What are the potential real-world applications of quantum computing?

2. How do quantum computers utilize qubits for processing information? 3. What are the challenges in scaling up quantum computing technology for practical use? 4. How do quantum algorithms differ from classical algorithms in terms of efficiency and complexity?

Original Abstract Submitted

systems and methods for a quantum computing include a plurality of photonic processing stages, a plurality of heralding-free connections, and circuitry configured to regulate photon flow between adjacent stages such that decisions about stage settings or flow between adjacent stages are free of input from a previous stage. each heralding-free connection is located between adjacent photonic processing stages. each photonic processing stage includes at least two of an optical switch, a beam splitter, a waveguide or a photon generator. methods include transmitting or receiving a plurality of photons via a plurality of heralding-free connections, and regulating photon flow between adjacent stages such that decisions about stage settings or flow between adjacent stages are free of input from a previous stage.