Diraq

Diraq is a quantum computing company focused on developing silicon-based spin qubit processors and control technologies for scalable, fault-tolerant quantum systems.

• Silicon-based spin qubit quantum processor development for large-scale architectures
• Quantum control, readout, and error mitigation techniques for spin qubit devices
• Research and engineering around CMOS-compatible quantum chip fabrication and integration
• Algorithms and system-level approaches targeted at future Fault-Tolerant Quantum Computing (FTQC) (quantum computing platforms)
• Collaboration with academic and industry partners on quantum technology commercialization and deployment models

More About Diraq

Diraq focuses on building quantum computing hardware based on spin qubits implemented in silicon, targeting architectures that are compatible with existing semiconductor fabrication processes and CMOS manufacturing workflows. This positions its technology within the quantum hardware and quantum processor category, with an emphasis on device physics, chip engineering, and control electronics rather than cloud-delivered quantum services at the current stage.

The core concept behind Diraq’s approach is the use of electron or hole spins confined in quantum dots as qubits within a silicon substrate, which allows circuitry that can, in principle, be manufactured using techniques that are close to traditional semiconductor processes. This architecture is intended to support scaling to large qubit counts by leveraging the industrial base around silicon foundries, wafer processing, and integrated control circuitry. The company’s Research and Development (R&D) spans qubit coherence, gate fidelity, qubit coupling mechanisms, and multiplexed readout schemes.

From an enterprise and institutional perspective, Diraq’s work aligns with long-term roadmaps for FTQC, in which error-corrected qubit arrays are expected to run algorithms for optimization, chemistry, materials science, and cryptography analysis. While near-term access for enterprises typically occurs via cloud-based quantum services, Diraq’s focus is on the underlying hardware platform and the architectures that could later be exposed through such services or dedicated on-premises (on-prem) quantum systems provided by integrators.

Technically, Diraq’s efforts intersect with topics such as Quantum Error Correction (QEC) codes, control pulse engineering, cryogenic operation, and the integration of qubit chips with classical control electronics. Spin qubits in silicon are often discussed in contrast to other quantum computing modalities such as superconducting qubits or trapped ions, with silicon approaches aiming to reuse much of the semiconductor industry’s existing toolchain. Diraq works within this modality and concentrates on the device-level and system-level engineering needed to scale to larger arrays of qubits.

In a technology directory or enterprise taxonomy, Diraq can be categorized under quantum computing hardware, quantum processors, and quantum research platforms, rather than general-purpose software or classical High performance computing (HPC). Its offerings and capabilities are most relevant to organizations tracking hardware-level quantum technology development, R&D partnerships, or future access to silicon spin qubit platforms through ecosystem providers and quantum service operators.