Run Jobs on IQM Spark™

Check out belows tutorials to learn how to execute circuits or pulse level experiments with your IQM Spark™.

Learn how to use your favorite framework to run circuits on Spark.

Running Quantum Circuits

Learn how to use your favorite framework to run circuits on Spark.

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Recommended level: Beginner

Learn how to coduct pulse level experiments on IQM Spark.

Running Pulse Experiments

Learn how to coduct pulse level experiments on IQM Spark.

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Recommended level: Intermediate

Explore IQM Spark™ components

Scan the QR codes to learn more about the Spark system.

Exploring Spark

Scan the QR codes to learn more about the Spark system.

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Recommended level: Visitor groups

Experiments

Available experiments

Experiments you can do on your own or with your students.

Measuring T1 Times

Determining the relaxation time of a transmon qubit.

Simulating Neutrino Oscillations

Model three neutrino types with qubits and simulate their oscillations.

Violation of the CHSH inequality

Here we showcase work that laid the groundwork for the 2022 Nobel Prize.

Decoherence and mixed states

We consider two subsystem of 2 and 3 qubits each to study decoherence.

Available later

Recalibration

Calibration is required to find the optimal parameters to operate the QPU and is crucial for high fidelity operations.

Dispersive Shift Experiment

Characterize the coupling between the readout resonator and the qubit.

T2* Ramsey Experiment

Determining the detuning frequency of a transmon qubit.

T2* Hahn Echo Experiment

Determining the time frequency of a transmon qubit.

Multi-level quantum hardware

Here we demonstrate the state preparation and readout of the second excited state of a transmon.

Mitigating errors

Applying readout error mitigation to suppress errors in quantum circuits.

Violation of Mermin’s inequality

A generalization of the CHSH inequality to multi-qubit systems.