Autocalibration
Automated calibration platform for quantum processors
Discover
Get started with Boulder Opal Scale Up and learn key concepts
What is Boulder Opal?
Manage workflows for autonomous quantum hardware characterization and calibration
The hierarchy of workflows in Boulder Opal
Understand how experiments, routines, and solutions compose into a three-tier calibration workflow
Understanding virtual devices in Boulder Opal
Examine the structure, components, and state-management workflow of the virtual device that mirrors your QPU
Creating your first virtual device with Boulder Opal
Create virtual devices on the Boulder Opal Scale Up platform, list available ones, and retrieve data from them
Running your first job with Boulder Opal
Execute quantum characterization and calibration tasks
Reviewing job results and device history with Boulder Opal
Retrieve job history, inspect execution summaries, and verify device state after running experiments and routines
Setting up Boulder Opal with Qblox controllers
Connect a Qblox cluster to Boulder Opal
Setting up Boulder Opal with QuantumMachines OPX controllers
Connect a Quantum Machines OPX+ system to Boulder Opal
Supported architecture in Boulder Opal
Identify the supported QPU models and controller vendor models that are supported in the Boulder Opal platform
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Task-focused guides for common calibration workflows
How to create and manage virtual devices with Boulder Opal
Create, inspect, and snapshot virtual devices that serve as a digital representation of your quantum hardware
How to run an automated routine with Boulder Opal
Execute autonomous Routines to automatically characterize or calibrate a component(s) on your quantum hardware
How to run a custom experiment with Boulder Opal
Define experiment parameters, execute individual quantum characterization tasks, and retrieve results
How to run coherence measurements with Boulder Opal
Measure T1 energy relaxation, T2 Ramsey dephasing, and T2 echo coherence times on a single transmon
How to retrieve and display data with Boulder Opal
Fetch job results, navigate execution history, and inspect virtual device state using the Scale Up client
How to manually update device parameters with Boulder Opal
Override QPU component parameters and gate calibrations directly on an existing virtual device
How to debug a failed routine with Boulder Opal
Diagnose and resolve failed calibration by re-running experiments with adjusted parameters
