Key features
- Access to cutting-edge technology: The system is equipped with a high-quality quantum processor (QPU) with a two-qubit gate fidelity of 99%, a tunable couplers architecture, and a complete software ecosystem to maximize the performance of the quantum computing system.
- Open and transparent architecture: Allows users to directly interact with the quantum computing system and control the execution process in detail through access at the qubit control pulse level.
- Rapid deployment capability: IQM has an in-house manufacturing facility and clean room, allowing for the fabrication and delivery of full-stack quantum computing systems at some of the fastest speeds available today.
Detailed description
- IQM Spark is a 5-qubit superconducting quantum computing system using transmon qubit technology and circuit quantum electrodynamics (cQED) architecture.
- The system operates at milliKelvin temperatures thanks to a cryogenic cooling system to maintain superconducting states and quantum stability.
- IQM Spark integrates tunable couplers to adjust the interaction between qubits, enhancing the fidelity of the two-qubit gate up to 99%.
- Qubits are controlled by precise microwave pulse control and support pulse-level access for in-depth quantum control research.
- The system is a complete full-stack quantum computing platform, including QPU, cryogenics, control electronics, and software stack, supporting the development of quantum algorithms, hybrid quantum-classical workflows, training, and research.