Key features
- Accompanying pioneering researchers towards fault-tolerant quantum computing: Supporting education, training, research, and intellectual property (IP) development, especially in the field of Quantum Error Correction (QEC).
- A step towards the commercialization of quantum computing: Developing commercial applications for quantum technology, including compilers, error decoders and AI, quantum algorithms, software, integrated HPC middleware, or calibration solutions for quantum systems.
- Developing with IQM: IQM supports the construction of a world-class quantum technology ecosystem through collaborative projects with IQM's expert team and services to support startup business development.
- Accessing an open platform and modularization: Allowing direct access and control of the entire system at the pulse-level access, enabling users to actively optimize each step in the operation and quantum research process.
- Advanced HPC integration: Fully supporting hybrid quantum-classical algorithms operating on logical qubits.
Detailed description
- IQM Quantum Computers IQM Halocene is a superconducting quantum computer system developed specifically for research in quantum error correction (Quantum Error Correction – QEC) and fault-tolerant quantum computing. The platform is designed with an open and modular architecture, supporting pulse-level access, allowing researchers and HPC centers to directly control the entire operation, calibration, and development of advanced quantum algorithms.
- IQM Halocene supports the deployment of logical qubits, hybrid quantum–classical algorithms, and surface code error correction mechanisms aimed at scalable and highly reliable quantum systems. The system is suitable for research institutes, universities, supercomputing centers, and companies developing quantum technology, quantum software, AI decoders, compilers, integrated HPC middleware, and next-generation quantum computing applications.