Q-CTRL and QuantWare have partnered to address the challenge of manual tuning in quantum hardware by introducing autonomous calibration solutions
Q-CTRL and QuantWare have partnered to address the challenge of manual tuning in quantum hardware by introducing autonomous calibration solutions
Q-CTRL’s Boulder Opal Scale Up tool enables "push-button tuneup," reducing quantum hardware setup times from days to hours with AI-driven automation
The collaboration ensures QuantWare’s QPUs achieve optimal performance with minimal effort, accelerating quantum error correction development
The collaboration ensures QuantWare’s QPUs achieve optimal performance with minimal effort, accelerating quantum error correction development
The Contralto-A Quantum Error Correction QPU, designed for distance-3 surface codes, benefits significantly from this integration, offering high-fidelity operations
The Contralto-A Quantum Error Correction QPU, designed for distance-3 surface codes, benefits significantly from this integration, offering high-fidelity operations
Includes up to 17 transmon qubits, 24 adjustable couplers, Purcell filters, and a "Ninja star" qubit layout optimized for quantum error correction
Contralto-A requires specific components like DC sources, AWGs, RF readout modules, and Crescendo-S TWPA for optimal operation
QuantWare’s VIO technology enables affordable scaling to larger QPUs, supporting processors with over a million qubits
The partnership aims to unlock utility-scale quantum computers by simplifying the tuning process for large QPUs
Contralto-A offers hardware-level access at every stack tier, providing flexibility and control for system setup
Boulder Opal Scale Up uses physics-informed AI to deliver fast, reliable, and repeatable QPU calibration, breaking through quantum industry bottlenecks
Boulder Opal Scale Up uses physics-informed AI to deliver fast, reliable, and repeatable QPU calibration, breaking through quantum industry bottlenecks