\(C^3\) - An integrated tool-set for control, calibration and characterization¶
The \(C^3\) software package provides tools to simulate and interact with experiments to perform common control and characterization tasks. Modules can be used individually or combined to achieve a certain goal. The main focus are three optimizations:
\(C_1\) Open-loop optimal control: Given a model, find the pulse shapes which maximize fidelity with a target operation.
\(C_2\) Closed-loop calibration: Given pulses, calibrate their parameters to maximize a figure of merit measured by the actual experiment, thus improving beyond the limits of a deficient model.
\(C_3\) Model learning: Given control pulses and their experimental measurement outcome, optimize model parameters to best reproduce the results.
When combined in sequence, these three procedures represent a recipe for system characterization.
Note: This documentation is work-in-progress.
- Setup of a two-qubit chip with \(C^3\)
- Open-loop optimal control
- Simulated calibration with \(C^2\)
- API Documentation
- Parameter map
- Experiment module
- Main module
- Module contents
- Generator package
- Libraries package
- Signal package
- System package
- Utilities package