Quobly and Entropica Labs Form Strategic Alliance to Advance Silicon-Based Fault Tolerance


Quobly, a French pioneer in silicon-based quantum computing, and Entropica Labs, a Singapore-based quantum software firm, have signed a Memorandum of Understanding (MoU) to co-design fault-tolerant quantum systems. The agreement, signed in Singapore, marks a strategic expansion for Quobly as it establishes the city-state as its regional hub for Asian deployment. The partnership focuses on integrating Entropica Labs’ software stack—specifically its advanced compiler and optimization technologies—directly with Quobly’s silicon spin-qubit architecture from the early stages of system design.
The collaboration aims to address the critical transition from laboratory prototypes to industrial-grade, fault-tolerant quantum computers (FTQC). By utilizing a hardware-software co-design approach, the teams will develop specialized quantum error correction (QEC) protocols tailored to the constraints of semiconductor-based processors. This technical alignment is intended to optimize orchestration and orchestration software, ensuring that future silicon quantum systems are operationally ready for large-scale, real-world applications in the Asia-Pacific region and beyond.
Quobly is currently advancing its Q100T program, supported by €40 million in funding and a strategic partnership with STMicroelectronics to leverage existing CMOS manufacturing processes. Entropica Labs contributes its expertise in fault-tolerant infrastructure, including architectural frameworks and error-correction orchestration. Together, the companies aim to bridge the gap between quantum physics and microelectronics, utilizing Singapore’s deep-tech ecosystem to accelerate the delivery of scalable, error-corrected quantum computation.
For further technical details on the fault-tolerant roadmap, consult the official announcement from Quobly here.
February 25, 2026
Related Intelligence

Test of USydney article with HTML.

MIT and IBM Project Quantum Unity Operators into Language Model Latent Spaces for Multimodal Circuit Synthesis
July 11, 2026

ETH Zurich Combines Superconducting Qubits with Mechanical Resonators to Build Vibrating Quantum RAM
July 11, 2026

Google and Fraunhofer Launch Global Calls for Early Fault-Tolerant Algorithms and Enterprise Use Cases
July 11, 2026

Who’s News: Strategic Appointments at Photonic, Aliro Quantum, Florida Atlantic University, QuSecure, Quantum Elements, and QAI Ventures
July 11, 2026

EeroQ Validates CMOS-Controlled Electron Shuttling on Superfluid Helium for All-to-All Qubit Routing
July 11, 2026