Improving stability with hybrid quantum navigation system
Reduction in gate duration
Gate-level hardware improvement with Q-CTRL robust gates
Designing noise-robust pulses for cold atom interferometers
Reducing compute costs with performance-management software
Improvement in gate robustness to amplitude miscalibration
Unleash the hidden potential of quantum computers
A new set of eyes to see the Earth
Detect the undetectable
Gain a mission edge with quantum control
Begin your quantum journey with Q-CTRL
Quantum-augmented PNT systems
Learn quantum computing
Find true value from quantum algorithms
Build the quantum platforms of the future
Unleash latent hardware performance
Breakthrough quantum sensing solutions for defense and industry
Technical webinar series that covers a range of quantum control topics, products and research hosted by our expert team
An overview of our American Physical Society March Meeting 2021 presentations covering three insightful topics about quantum control.
Discover how Boulder Opal allows you to automate performance enhancements in quantum hardware through closed-loop experimental optimization.
An overview of four exciting advanced quantum control topics related to quantum computing.
Exploring how quantum control can improve the performance of quantum computing hardware in the lab or in the cloud by creating error-robust quantum logic.
Dive into robust quantum control with an introduction to the practical hardware challenges facing quantum computing today and how robust control can help.
An introduction to cold ions, obtaining robust, configureable and multi-qubit gates with control solutions parallel, specifiable multi-qubit gates using pulses.
Read about our journey and the things we love.
Learn how Q-CTRL provides the critical software to help you do more with your hardware.
Background material and research developed by the Q-CTRL team.
September 6, 2023
September 5, 2023
August 8, 2023
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