
All Products
Discover the complete range of tools built to support your measurements, your experiments, and your discoveries.
OPX1000
High-Density Control Platform for Quantum Computers at Scale Real-Time Processing | Fastest Feedback | Cutting-Edge Analog Frontend | Datacenter Ready
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OPX+
Ultra-fast quantum controller All-in-one quantum control and readout with real-time processing and feedback, enabling easy implementation of complex quantum algorithms.
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QDAC-II Compact
High-density DAC QDAC-II Compact is the reduced-size
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QDAC-II
Ultra-low-noise 24-channel DAC High-precision, low-noise computer-controlled voltage generators for DC and intermediate-frequency control quantum electronics and quantum computer qubits.
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Octave
Highly reliable 24-channel breakout box
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QSwitch
Highly reliable 24-channel breakout box
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QBox
Highly reliable 24-channel breakout box
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QUA
QUA The Pulse-Level Language for Hybrid Programming Easily and quickly develop quantum-classical workflows Talk to an ExpertRequest the Brochure Quick…
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QUAlibrate
QUAlibrateAutomated Calibration Software Request a Demo Quick links Overview Calibration Graphs QUAM Web Interface See It in Action Customer Voices…
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QBoard II
QBoard-II: Cryogenic Sample Holder Save valuable research hours with a modular, configurable chip carrier Request a Demo Quick links ANCHOR…
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QFilter II
QFilter-II Compact Cryogenic Low-Pass Filter Achieving the lowest possible noise and electron temperature in quantum circuits Request a Demo Quick…
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QCage
Highly reliable 24-channel breakout box
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Choosing the right control stack starts with understanding your platform
Explore supported qubit technologies and solution architectures to find the best path for your quantum computing program.
FAQs
What are the major challenges in quantum networking and how are they addressed?
Challenges include maintaining quantum coherence over long distances, efficient error correction, and integrating quantum and classical networks. Solutions involve advanced quantum repeater technology and robust quantum control protocols, that leaves the heavy lifting on the control electronics orchestrating the sequence.
What are the major challenges in quantum networking and how are they addressed?
Challenges include maintaining quantum coherence over long distances, efficient error correction, and integrating quantum and classical networks. Solutions involve advanced quantum repeater technology and robust quantum control protocols, that leaves the heavy lifting on the control electronics orchestrating the sequence.
What are the major challenges in quantum networking and how are they addressed?
Challenges include maintaining quantum coherence over long distances, efficient error correction, and integrating quantum and classical networks. Solutions involve advanced quantum repeater technology and robust quantum control protocols, that leaves the heavy lifting on the control electronics orchestrating the sequence.
What are the major challenges in quantum networking and how are they addressed?
Challenges include maintaining quantum coherence over long distances, efficient error correction, and integrating quantum and classical networks. Solutions involve advanced quantum repeater technology and robust quantum control protocols, that leaves the heavy lifting on the control electronics orchestrating the sequence.