C12 Advances Scalable Quantum Computing with Classiq’s Software Platform

The quantum computing landscape is rapidly evolving, yet hardware scalability remains a bottleneck. C12’s approach—leveraging ultra‑pure carbon nanotubes for spin‑qubit processors—addresses this challenge by delivering record coherence times and low noise, essential for building larger, fault‑tolerant systems. By focusing on material purity and a dedicated fabrication facility in Paris, C12 positions itself to compete with superconducting and ion‑trap platforms while offering a pathway to densely integrated qubit arrays.

Digital twins like Callisto are becoming critical bridges between nascent hardware and the developer ecosystem. By embedding Callisto within Classiq’s platform, algorithm designers can access a high‑fidelity simulation that incorporates realistic noise sources such as charge‑noise and phonon interactions. The Qmod language and synthesis engine further streamline the workflow, allowing code to be compiled for the twin and later migrated to physical devices with minimal re‑engineering. This proactive testing reduces development cycles and mitigates the risk of late‑stage hardware incompatibilities.

Beyond technical synergy, the partnership signals a broader market shift toward heterogeneous quantum stacks. Classiq’s expanded support now spans superconducting, ion‑trap, neutral‑atom, cat, and spin‑qubit QPUs, complemented by simulators from NVIDIA and Intel. Such inclusivity lowers entry barriers for enterprises seeking quantum advantage across varied workloads. As more firms adopt multi‑modal strategies, collaborations that marry cutting‑edge hardware with adaptable software will likely dictate the pace of quantum adoption, positioning C12 and Classiq as pivotal enablers in the emerging quantum economy.