Q-CTRL empowers quantum computing with Black Opal for intuitive learning, Fire Opal to boost performance with error suppression, and Boulder Opal to stabilize and scale hardware. Unlock the full potential of quantum with our powerful, easy-to-use solutions.
Learn
Black Opal is an interactive online learning platform designed to make quantum computing accessible to everyone. Whether you're a student, a developer, or an enterprise looking to upskill your workforce, Black Opal simplifies complex concepts with engaging, hands-on activities.
World-class content
Build deep understanding with expert-designed courses from global quantum leaders.
Engaging interactivity
Drive excitement and participation with real-world applications and interactive materials.
Seamless deployment
Customize, launch, and manage learning programs with an intuitive tools.
Trusted certification
Earn badges and validate your quantum knowledge through structured assessments and certifications.
Real-world applications
Explore how quantum computing transforms industries with relevant, practical use cases.
Hands-on learning
Grasp complex principles by working through guided activities and visual simulations.
Run
Fire Opal delivers fully automated error suppression, maximizing the success of quantum algorithms without requiring specialized knowledge. Designed for algorithm developers and platform vendors, Fire Opal ensures reliable performance across quantum processors.
Automated error suppression
Mitigate errors in real-time with AI-driven automation.
Best-in-class compiler
Reduce circuit-level errors for optimal performance.
Algorithmic acceleration
Deploy pre-built, hardware-optimized solutions for QAOA, VQE and more.
Seamless backend selection
Connect to multiple quantum processors through a single interface.
Zero configuration
Improve performance instantly with no manual tuning.
Build
Boulder Opal empowers quantum hardware developers with professional solutions to design, automate, and scale quantum hardware and controls. By minimizing errors, enhancing stability, and replacing manual tasks with intelligent autonomy, Boulder Opal accelerates quantum innovation.
Advanced simulation
Model quantum systems with time-varying noise.
Model-based control
Standardize and accelerate the creation of infrastructure modules.
Precision characterization
Define hardware specifications and environmental noise.
Closed-loop optimization
Automate the last phase of performance tuning for optimal device operation.
Scalable performance
Deliver peak performance, every time with autonomous tuneup solutions.
Multi-modality support
Compatible with superconducting, trapped ion, and silicon qubit architectures.