QUAlibrate simplifies the complex task of quantum calibration, dramatically boosting productivity. Built for scale, it enables parallelized multi-qubit tune-up, with full qubit tune-up in less than a minute. QUAlibrate gives users complete code-level control to program and customize calibration nodes and graphs.
With interactive execution, live visualization, and robust data management, QUAlibrate ensures high-fidelity calibration and seamless scalability for today’s – and tomorrow’s – quantum systems.
Customizable Calibration Graphs
At the core of QUAlibrate is its graph-based approach: Calibration graphs and their control flow logic are completely customizable. They are made up of nodes, each representing a specific operation – like spectroscopy, Rabi experiments, or gate tuning.
- Nodes are implemented as QUA programs – custom-built or selected from QUAlibrate’s comprehensive library of pre- built control applications.
- Calibration graphs determine how nodes connect and interact based on qubit-specific results and run simultaneously on any number of selected qubits.
- Advanced traversal algorithms allow for intelligent navigation, and optimization of the graph.

Quantum Abstract Machine (QUAM)
QUAlibrate leverages QUAM, a component-based architecture built on the QUA programming language. QUAM digitally models your quantum system – from hardware to qubits – enabling more flexible, hardware-agnostic calibration workflows. It simplifies setup, enhances control, and ensures consistency across devices and experiments.
- Focus on qubit operations without needing hardware-specific code.
- Adapt to new systems with minimal overhead.
- Log and re-run calibration routines with ease.

Intuitive Web Interface
QUAlibrate’s web-based interface gives full visibility and control over calibration workflows, from individual node execution to full graph orchestration.
Calibration Node View
- Run calibration programs from the built-in application library, or create custom QUA-based routines.
- View results with detailed, real-time visualizations and plots.
- Set parameters and adjust them interactively in response to live measurement outcomes.

Calibration Graph View
- Build automated calibration graphs by connecting multiple nodes.
- Choose from several traversal algorithms to optimize efficiency and calibration success.
- Track progress with live graph updates at every stage.
- Parallelize calibration across multiple qubits to accelerate and improve large-scale tune-up.

QUAlibrate in Action
Customer Voices
Key Features
- All-in-one calibration platform
Build, control, and optimize calibrations in a unified environment with interactive workflows, live plotting, and data management. - Parallelized multi-qubit tune-up
Calibrate multiple qubits simultaneously to accelerate system tuning and enable scaling. - Fully customizable framework
Write or modify pulse-level code and logic of calibration nodes and graphs – not just adjusting parameters – for complete control and flexibility. - System modeling via QUAM
Represent and optimize quantum systems with ease. - Extensive control application library
Access a rich set of pre-built calibration routines and graphs to save time and ensure you get the best out of your qubits. - Built for OPX hybrid controllers
Provides a streamlined calibration solution with OPX+, OPX1000, and NVIDIA DGX Quantum. - Open source
Fully open-source with BSD-3 licensing.
