QUANTUM CONTROL MADE SIMPLE.
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Qblox Scheduler is an open-source, Python-based framework that converts complex quantum physics experiments into efficient code optimized for hardware execution with real-time pulse processing.

Focus on physics, not programming

Concentrate on the physics that drives your research, the experimental design, and quantum control, without being slowed down.

Save time to accelerate research

Use ready-to-run code and our expert support team to save time and accelerate your next breakthrough experiment

Execute seamless quantum control

Perform qubit operations via running loops on the FPGA, precise timing control, and automated memory management

Qblox Scheduler features

Hardware Agent as your companion for smooth operations

The Hardware Agent compiles and executes experiments, managing hardware, QPU connectivity, and qubit parameters. It serves as the sole point of contact between the user and the experimental setup. You can efficiently utilize pulse processing (FPGA) resources to run multidimensional parameter sweeps and loops.

Real-time & near-time loops as your enabler for N-dimensional sweeps

With Qblox Scheduler, defining sweep parameters like frequency, amplitude, and time becomes straightforward and efficient. It manages both real-time and near-time execution to ensure optimal performance of Q1 FPGA sequencers within the Qblox Cluster. You can run complex, multidimensional sweeps with ease and full control.

Near-time loops as your control engine to run unlimited N-dimensional sweeps

With Qblox Scheduler, defining sweep parameters like frequency, amplitude, and time becomes straightforward and efficient. It manages both real-time and near-time execution to ensure optimal performance of Q1 FPGA sequencers within the Qblox Cluster. You can run complex, multidimensional sweeps with ease and full control.

Data acquisition as your key to comprehensive and accessible results.

A comprehensive dataset is generated with user-defined axes based on physical parameters. Qblox Scheduler performs data analysis and plots the results, providing streamlined access for interpreting experimental data.

Compatible with diverse qubit configurations

Superconducting Qubits
Spin
Qubits
Color centers
Qubits
Trapped ions
qubits
Qblox technical documentation

Maximize success with Qblox Scheduler 

Application Toolkit

Access ready-made experiments for quick measurements and tools for building advanced setups, for every qubit type and for both beginners and experts.

Extensive experiment library

Explore a wide range of experiments, from standard characterization up to multi-qubit randomized benchmarking experiments, with notebooks for tuning up and measuring.

Step-by-step tutorials

Follow a guide to lead you through hardware configuration, experiment creation, and data acquisition.

Qblox Customer Support

Get expert assistance from our Quantum Success Engineers who provide insight, troubleshooting, and best practices to accelerate your progress.

Quote from a software expert

" With Qblox Scheduler, we’re entering a new chapter in quantum control. Designed with usability in mind, it reduces code overhead and enables larger, more efficient schedules on Qblox hardware. This software not only transforms how quantum experiments are built and executed, but also embodies our vision of making scalable quantum technology accessible, transparent, and open source. "
Tatiana Boye
Head of Software

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