New Quantum Architecture Solves for Fault Tolerance

New Architecture for Practical Application of Quantum Computers

May 01, 2024

Tags: Osaka University, Japan, Computing Technology

Researchers have developed a quantum computing architecture that reduces qubits needed for error correction by 90%, enabling quantum computers with 10,000 physical qubits to surpass classical computers. This innovation accelerates the creation of a quantum computer with 10,000 physical qubits and 64 logical qubits, marking progress toward genuine fault-tolerant quantum computing. The new architecture utilizes an efficient phase rotating gate, cutting down the qubits for error correction and gate operations required for rotation. This breakthrough could revolutionize fields like quantum chemistry and finance by offering calculation performance 100,000 times that to current classical computers. The development represents a significant leap towards practical, fault-tolerant quantum computing.

IP Type or Form Factor: Process & Method; Design

TRL: Not specified

Industry or Tech Area: Quantum Computing & Communication; Computing Architecture

New Architecture for Practical Application of Quantum Computers — New Quantum Architecture Solves for Fault Tolerance

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New Quantum Architecture Solves for Fault Tolerance

New Architecture for Practical Application of Quantum Computers

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