INTERLEAVING MODULE FOR FAULT-TOLERANT QUANTUM COMPUTER

Organization Name

Psiquantum, Corp.

Inventor(s)

Naomi Nickerson of San Francisco CA (US)

Daniel Litinski of Palo Alto CA (US)

INTERLEAVING MODULE FOR FAULT-TOLERANT QUANTUM COMPUTER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240242100 titled 'INTERLEAVING MODULE FOR FAULT-TOLERANT QUANTUM COMPUTER

Abstract: Fusion-based quantum computations can be implemented using a network of interleaving modules. Each interleaving module can receive or produce resource states consisting of entangled physical qubits and can include a set of reconfigurable fusion circuits that can be controlled to perform either fusion operations or single qubit measurements on pairs of qubits from different resource states, routing paths connected to the reconfigurable fusion circuits, and delay lines and routing switches that operate to select routing paths for qubits of the resource states, thereby implementing a desired combination of fusion operations and single qubit measurements. The routing paths can include local routing paths that couple to reconfigurable fusion circuits in the same interleaving module and network routing paths that couple a routing switch in one interleaving module to a reconfigurable fusion circuit in a different interleaving module within the network.

Key Features and Innovation:

• Implementation of fusion-based quantum computations using a network of interleaving modules
• Reconfigurable fusion circuits for performing fusion operations or single qubit measurements
• Routing paths and switches for selecting paths for qubits from different resource states
• Local and network routing paths for coupling reconfigurable fusion circuits in different modules

Potential Applications: - Quantum computing - Quantum communication - Quantum cryptography

Problems Solved: - Efficient implementation of fusion-based quantum computations - Resource state management in quantum systems

Benefits: - Increased efficiency in quantum computations - Enhanced control over fusion operations and measurements - Scalability in quantum systems

Commercial Applications: Title: Quantum Computing Network for Fusion-Based Computations This technology can be applied in industries such as: - Information technology - Telecommunications - Defense and security

Prior Art: Researchers can explore prior work on quantum computing networks, fusion circuits, and resource state management in quantum systems.

Frequently Updated Research: Stay updated on the latest advancements in quantum computing networks, fusion circuits, and quantum information processing.

Questions about Quantum Computing Network for Fusion-Based Computations: 1. How does this technology improve the efficiency of quantum computations? 2. What are the potential challenges in implementing a network of interleaving modules for fusion-based quantum computations?

Original Abstract Submitted

fusion-based quantum computations can be implemented using a network of interleaving modules. each interleaving module can receive or produce resource states consisting of entangled physical qubits and can include a set of reconfigurable fusion circuits that can be controlled to perform either fusion operations or single qubit measurements on pairs of qubits from different resource states, routing paths connected to the reconfigurable fusion circuits, and delay lines and routing switches that operate to select routing paths for qubits of the resource states, thereby implementing a desired combination of fusion operations and single qubit measurements. the routing paths can include local routing paths that couple to reconfigurable fusion circuits in the same interleaving module and network routing paths that couple a routing switch in one interleaving module to a reconfigurable fusion circuit in a different interleaving module within the network.