Origin Pilot Quantum OS Release: China's Self-Developed Quantum Computer Operating System Now Available for Public Download

China Launches Public Download of Origin Pilot Quantum OS, Boosting Global Quantum Research Access

China has marked a pivotal moment in quantum computing by making Origin Pilot, its self-developed quantum computer operating system, available for public download. Announced by the Anhui Quantum Computing Engineering Research Center on February 24, 2026, this release allows researchers, universities, and developers worldwide to access a fully indigenous system designed to streamline quantum hardware utilization. Developed by Hefei-based Origin Quantum Computing Technology Co., Ltd., Origin Pilot represents China's push toward quantum self-reliance, bridging laboratory innovations with practical applications in higher education and industry.

The operating system, first unveiled in 2021, has evolved through multiple iterations to support diverse quantum architectures. Its public availability lowers barriers for academic institutions, enabling seamless integration with university quantum labs and fostering collaborative research ecosystems.

Understanding Quantum Operating Systems: The Core of Next-Generation Computing

A quantum operating system (OS) differs fundamentally from classical ones like Linux or Windows. While traditional OS manage bits (0s and 1s), quantum OS orchestrate qubits—the fragile quantum bits that exist in superposition, entanglement, and other quantum states. Origin Pilot acts as the 'operation and scheduling hub,' handling resource allocation, task queuing, and hardware calibration to maximize qubit fidelity and minimize errors inherent in noisy intermediate-scale quantum (NISQ) devices.

Step-by-step, it works as follows: First, users submit quantum circuits via unified programming interfaces like QPanda. The OS compiles these into executable instructions, schedules them across available qubits, and automatically calibrates hardware to combat decoherence. Finally, it executes tasks in parallel, integrating with classical high-performance computing (HPC) for hybrid workflows. This process can multiply quantum resource efficiency by several times compared to manual setups.

Origin Quantum: From USTC Roots to Quantum Industry Leader

Origin Quantum, founded in 2017 in Hefei's High-Tech Zone, traces its origins to the Chinese Academy of Sciences (CAS) Key Laboratory of Quantum Information at the University of Science and Technology of China (USTC). Chief scientist Professor Guo Guoping, a USTC luminary, leads efforts that have positioned the company as China's patent leader in quantum computing (234 patents, ranking sixth globally).

The firm's milestones include the Origin Wukong superconducting quantum computer series (up to 72 qubits), the nation's first quantum cloud platform, and now Origin Pilot OS. Hefei, dubbed China's 'quantum valley,' hosts USTC and collaborative centers, driving talent pipelines from academia to industry. This synergy exemplifies how Chinese universities fuel quantum commercialization.

For higher education, Origin Quantum's open-source textbook 'Introduction to Quantum Computing and Programming,' co-authored with USTC's Guo Guoping, equips students globally via GitHub and Gitee.

Key Technical Features of Origin Pilot Quantum OS

Origin Pilot V4.0 supports superconducting, trapped-ion, neutral-atom, and photonic quantum backends, with community and enterprise editions. Community edition offers automated installation, hybrid compilation, noise mitigation, and resource monitoring. Enterprise adds post-quantum cryptography and distributed computing.

• Parallel Task Execution: Runs multiple quantum jobs concurrently, slashing wait times.
• Automatic Qubit Calibration: Continuously tunes qubits for optimal fidelity, addressing decoherence.
• Unified Interfaces: QPanda framework for seamless programming across hardware.
• Hybrid Integration: Orchestrates with CPU/GPU for quantum-classical algorithms.

Evaluations show it boosts circuit fidelity via advanced mapping and enables scalable services, vital for university R&D.

How to Download and Deploy Origin Pilot in Academic Labs

Downloading is straightforward: Visit Origin Quantum's cloud platform, obtain a free license, and grab the community edition. One-click scripts handle deployment, connecting to cloud quantum chips or local simulators. Tutorials cover API docs, protocol specs for each backend, and Python-based ZMQ simulators for testing.

Universities can integrate it with existing HPC clusters, ideal for courses in quantum algorithms or simulations. Early adopters report rapid prototyping of variational quantum eigensolvers (VQE) for chemistry research.

Deep Ties to Chinese Higher Education: USTC and Beyond

USTC, birthplace of China's quantum supremacy claims (Jiuzhang photonic computer, Zuchongzhi superconducting), collaborates closely with Origin Quantum. Professor Guo's dual role exemplifies academia-industry fusion, training PhDs who staff Hefei's quantum hubs. Tsinghua University advances trapped-ion simulators, complementing Origin's superconducting focus.

In 2026, USTC achieved scalable quantum repeaters over 12,900 km, underscoring university-led breakthroughs. Origin Pilot equips these labs for hybrid experiments, accelerating theses and publications.

China's Quantum Computing Roadmap: From 14th FYP to Global Leadership

Quantum tech features prominently in China's 14th Five-Year Plan (2021-2025), with extensions into the 15th (2026-2030) prioritizing commercialization. Investments exceed billions in R&D, yielding leadership in quantum communication (Micius satellite) and computing patents. By 2025, China deployed Zuchongzhi 3.0 commercially.

Origin Pilot aligns with national goals for ecosystem autonomy, supporting 30+ million Wukong cloud visits and alliances like OQIA.

Global Context: How Origin Pilot Stacks Up Against IBM Qiskit and Cirq

Unlike IBM's Qiskit or Google's Cirq—cloud frameworks without downloadable OS—Origin Pilot offers local deployment, a world first. It unifies architectures absent in Western stacks, aiding diverse research. While US leads in qubit counts (Google's Willow), China's OS democratizes access for universities worldwide.

Comparisons:

• Accessibility: Downloadable vs. cloud-only.
• Versatility: Multi-backend vs. proprietary hardware.
• Calibration: Automated, continuous.

Real-World Applications: From University Research to Industry

In academia, Origin Pilot enables drug discovery via quantum chemistry simulations, optimization for logistics, and machine learning enhancements. USTC labs use it for error-corrected codes; Hefei universities simulate materials. Case: Wukong-72 qubit runs Grover searches 100x faster than classical.

Statistics: Quantum computing market projected $65B by 2030; China holds 40% patents. For higher ed, it opens doors to quantum research positions.

Expert Perspectives and Stakeholder Views

Guo Guoping: 'Key step for national quantum development, benefiting global innovators.' Dou Menghan: 'Quick integration for research and commercialization.' Western analysts note China's rapid catch-up, urging collaborations despite export controls.

Challenges: NISQ noise, scalability; solutions via Origin's mitigation tools.

Future Outlook: Quantum Talent Boom in Chinese Higher Education

With Origin Pilot, China's universities gear for fault-tolerant era (1M+ qubits). 15th FYP targets industrialization; expect surges in quantum PhDs, courses. Hefei aims 'quantum valley' status, rivaling Silicon Valley.

Actionable insights: Download OS, experiment with QPanda tutorials; pursue university quantum faculty roles or postdocs.

Photo by Nicolas Peyrol on Unsplash

Career Opportunities in China's Quantum Higher Ed Landscape

The release fuels demand for quantum educators, researchers. Positions at USTC, Tsinghua abound: professors, postdocs, lecturers. Platforms like AcademicJobs.com/higher-ed-jobs list openings. Rate professors via Rate My Professor; seek advice at Higher Ed Career Advice. Check recruitment for quantum roles in China.

This milestone positions Chinese academia as quantum frontrunners, inviting global talent.