QMill: Projecting Verifiable Quantum Advantage via 48-Qubit NISQ Algorithms
QMill has announced simulation results for a quantum algorithm designed to achieve verifiable quantum advantage on near-term hardware. The architecture requires 48 physical qubits operating at a gate fidelity of 99.94%. This represents a significant reduction in hardware requirements compared to established benchmarks, which traditionally estimate a need for approximately 200 qubits at 99.99% fidelity […]
The post QMill: Projecting Verifiable Quantum Advantage via 48-Qubit NISQ Algorithms appeared first on Quantum Computing Report.
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