A single processor. Designed to deliver unparalleled utility-scale speed, fidelity, and cost.
Our Benchmarks
Fastest Clock Speeds
Superconducting circuits, including our fluxonium-based architecture, deliver fast clock speeds. This is critical for running utility-scale applications.
Lowest Error Rates
Our superconducting fluxonium-based qubit architecture has a significantly lower operating frequency than other qubit modalities. We leverage this to achieve record-low error rates.
Most Scalable Architecutre
This lower frequency allows us to collocate control electronics with the qubit chip, unlocking a new scaling trajectory and dramatically reducing both system cost and cost per qubit.
Competing options all compromise on at least one of these three benchmarks.
Problem
Quantum computing platforms are varied, making comparisons difficult. However, all platforms are judged on three universal benchmarks: clock speed, fidelity (error rates), and scalability.
Current industry leaders excel in one or two benchmarks but have yet to achieve all three. Some challenges can be addressed through engineering, while others stem from fundamental physics, requiring entirely new breakthroughs.
Solution
Our fluxonium-based superconducting qubit architecture allows us to excel in all three benchmarks. Its fast clock speeds match other superconducting systems, while its low-frequency qubit states shield against noise for record-low error rates.
Most critically, it enables the world’s first quantum integrated circuit, combining controls and qubits into a single modular chip stack inside the cryostat. This breakthrough reduces complexity and cost, unlocking scalability and paving the way for utility-scale quantum computing.
