IQM Quantum Computers of Espoo, Finland, today announced the launch of its Halocene product line, a series of on-premises superconducting quantum computers designed to accelerate research in quantum error correction. The initial release, slated for delivery by the end of 2026, will be a 150-qubit system featuring an IQM Crystal quantum processing unit (QPU) targeting 99.7% two-qubit gate fidelity and incorporating advanced error correction functionalities. This modular and open platform aims to empower supercomputing centers, research organizations, and universities to develop and validate error correction techniques, paving the way towards fault-tolerant quantum computation at scale and beyond 1,000 qubits.
IQM Launches Halocene Quantum Computer Line
IQM Quantum Computers has launched Halocene, a new product line focused on accelerating research into quantum error correction. The initial offering, slated for delivery in late 2026, will be a 150-qubit system. Importantly, Halocene isn’t just about qubit count; it’s built around an open and modular error correction stack. This allows researchers at supercomputing centers, universities, and within industry to experiment with different correction methods and build intellectual property using logical qubits – a critical step towards reliable quantum computation.
The 150-qubit Halocene system aims for high performance, targeting 99.7% fidelity for two-qubit gates – a measure of accuracy. Beyond NISQ algorithms, the system will facilitate research into up to five logical qubits and Clifford gate implementation. IQM is incorporating an open quantum error correction stack with modular decoder architecture and support for NVIDIA’s NVQLink, offering greater system-level control and transparency for users. This builds upon IQM’s existing Radiance line, expanding capabilities significantly.
IQM anticipates scaling the Halocene line beyond 1,000 qubits, aligning with their roadmap for fault-tolerant quantum computing by 2030. As the leading seller of on-premises quantum systems globally, IQM positions Halocene as a response to market demand for large, error-corrected machines. This new product line isn’t simply about hardware; it’s about fostering a thriving quantum ecosystem through collaborative research and development with its customers, strengthening IQM’s commercial leadership.
Halocene System: Specifications & Capabilities
IQM Quantum Computers has launched the Halocene system, a new product line focused on accelerating research into quantum error correction. The initial offering, slated for delivery by late 2026, will be a 150-qubit quantum computer. Critically, this system aims beyond simply increasing qubit count; it’s designed to facilitate the development of logical qubits – the building blocks of fault-tolerant quantum computation. IQM targets 99.7% two-qubit gate fidelity with the initial IQM Crystal QPU, providing a robust foundation for error correction algorithms.
The Halocene system distinguishes itself through an open and modular architecture. This includes a transparent quantum error correction stack, a modular decoder, and support for NVIDIA’s NVQLink – enabling high-speed data transfer. Beyond the 150-qubit release, IQM plans to scale the Halocene line beyond 1,000 qubits, aligning with their roadmap to demonstrate fault-tolerant quantum computing by 2030. The system is designed to support research on up to five logical qubits and implementation of Clifford gates.
IQM’s strategy centers on providing on-premises quantum computers – they currently lead the market in this area – and fostering collaborative research. The Halocene line builds on their existing Radiance product for NISQ computation, but adds the critical error correction capabilities necessary for scaling quantum technology. This focus on error correction, combined with a commitment to open architecture, positions IQM to empower a broader quantum ecosystem and accelerate the path toward practical quantum applications.
Future Roadmap & Market Positioning
IQM Quantum Computers has launched Halocene, a new product line focused on accelerating quantum error correction research. The initial offering, slated for delivery by late 2026, will be a 150-qubit system. Crucially, this isn’t just about qubit count; IQM is targeting 99.7% two-qubit gate fidelity alongside an open, modular error correction stack. This architecture allows researchers to experiment with diverse error correction techniques and build intellectual property around logical qubits—a vital step towards reliable quantum computation.
The Halocene roadmap extends beyond the initial 150 qubits, with plans for systems exceeding 1,000 qubits. This scaling is aligned with IQM’s ambition to demonstrate functional quantum error correction by 2030. The system incorporates features like support for NVIDIA NVQLink and a modular decoder architecture, enhancing system-level control and software integration. IQM differentiates itself through collaborative R&D, co-developing solutions with partners and customers to foster a thriving quantum ecosystem.
IQM’s move positions the company as a leader in the emerging market for fault-tolerant quantum computers. Having already established itself as a leading provider of on-premises quantum systems, IQM anticipates Halocene will further accelerate revenue growth. The focus on error correction addresses a critical barrier to practical quantum computing—reducing the impact of noise and enabling more complex calculations. This strategic investment signals IQM’s commitment to building commercially viable quantum ecosystems.
