Trapped Ion QPU

Precision quantum processors with all-to-all connectivity, ultra-long coherence, and exceptionally high gate fidelity. Ideal for deep circuits, error correction research, and high-accuracy workloads.

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Technical Specifications

64Ion Qubits

99.99%Single-Qubit Fidelity

99.9%Two-Qubit Fidelity

50sCoherence Time

All-to-AllConnectivity

10-100usGate Time

Architecture

Laser-Controlled Qubits

Individual ions are trapped in electromagnetic fields and controlled with precision laser pulses. The system enables high-fidelity gates and low error rates.

All-to-all connectivity reduces circuit depth and improves algorithm performance for optimization and simulation.

[VIDEO: Ion trap array and laser control]

Reconfigurable Ion Chains

Dynamically adjust ion positions to optimize gate interactions. This enables flexible circuit compilation and resource-aware scheduling.

Advanced cooling techniques maintain stability and coherence across long circuits.

[IMG: Ion chain configuration interface]

Use Cases

Quantum Chemistry

High-precision energy calculations for complex molecules with deep circuit requirements.

Error Correction Research

Ideal for testing surface codes and logical qubits with long coherence times.

Optimization

All-to-all connectivity simplifies QAOA and variational circuits for combinatorial problems.

Quantum Simulation

Simulate spin systems and lattice models with accurate long-range interactions.

Algorithm Research

Explore novel algorithms requiring deep circuits and consistent gate performance.

Education

Stable environment for teaching quantum circuits and error mitigation techniques.

Access Trapped Ion Hardware

Run your most demanding algorithms on a platform designed for precision and stability. Cloud access and dedicated research partnerships available.

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