Alice & Bob is developing the first universal, fault-tolerant quantum computer to solve the world’s hardest problems.
The quantum computer we envision building is based on a new kind of superconducting qubit: the Schrödinger cat qubit 🐈⬛. In comparison to other superconducting platforms, cat qubits have the astonishing ability to implement quantum error correction autonomously!
We're a diverse team of 200+ brilliant minds from over 31 countries united by a single goal: to revolutionise computing with a practical fault-tolerant quantum machine. Are you ready to take on unprecedented challenges and contribute to revolutionising technology? Join us, and let's shape the future of quantum computing together!
As part of the Quantum Hardware and Infrastructure department, the newly created Cleanroom Operations team will own production throughput performance and ensure rigorous execution of production recipes.
The Cleanroom Operations team will be responsible for the day-to-day operation of the cleanroom and process equipment, in coordination with “Process Development Engineering”,”Test Characterization and Packaging”, “Process Integration” teams and Program managers. Responsibilities include:
- Scheduling and executing wafer fabrication activities
- Maintaining SOPs and operational documentation (including process and equipment data traceability using MES)
- Maintaining fabrication equipment in operational conditions
- Monitoring equipment performance and environmental conditions
- First-level troubleshooting and escalation management
- Coordinating preventive and corrective maintenance, in close collaboration with Process Development Engineering
- Driving continuous improvement actions to increase throughput and reliability
As the Manager of the Cleanroom Operations Team, you will play a key role in scaling Alice&Bob’s wafer fabrication capabilities and supporting the transition toward an industrial semiconductor manufacturing model.
We are seeking an engineer experienced in semiconductor operations, production environments, or critical technical infrastructures, with strong management and organizational skills.
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Responsibilities
You ensure the Cleanroom Operations deviler according to the production goals
- Organize and supervise day-to-day fabrication activities
- Maintain equipment planning and team schedules
- Coordinate priorities and schedules with other teams
- Manage consumables, spare parts, and inventories
- Monitor uptime, utilization, and operational KPIs
You ensure rigorous exection of fabrication processes
- Ensure fabrication requests are documented, prioritized, and scheduled
- Ensure team members are trained appropriately on the different fabrication processes
- Ensure traceability, documentation, and compliance with SOPs within MES
- Ensure compliance with safety and quality standards
- Ensure smooth transfer from process development to stable operational execution
You ensure that the tools remain fully operational and performing at their best
- Ensure operational readiness of tools, documentation, and operator training
- Monitor preventive maintenance plans
- Coordinate troubleshooting, corrective maintenance, and supplier interventions
You drive continuous improvement and team development
- Lead operational excellence and continuous improvement initiatives
- Drive actions to maximize wafer throughput and reduce bottlenecks
- Support the ramp-up toward industrial fabrication cadence
- Manage on a day-to-day a team of engineers and technicians (including 1o1 and reviews)
- Define hiring needs and support recruitment with HR
- Develop team competencies and promote a strong operational culture focused on safety, quality, and accountability
You ensure the budget preparation and execution
- Prepare and oversee the operational budget
- Monitor operational costs and maintenance expenses
- Maintain operational procedures, maintenance records, and KPIs
Recruitment Process
Screening Call with Talent Acquisition Specialist (30 min)
Hiring Manager Interview (45 min)
Technical Interview/Presentation with the Team (90 min)
Leadership and Fit Interview (60 min)
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Benefits:
- Our success is your success: own it with our BSPCE plan
- Direct IP Compensation: Earn substantial bonuses for driving the core patents that define our quantum architecture.
- Flexible remote policy, up to 40 % a month
- A Parental plan including additional benefits such as crèche support or additional days-off to take care of under 12 years old children
- Subsidized membership withUrban Sports Club
- Mental health support with moka.care
- 25-day vacation policy (as per French law) + RTT
- Half of transportation cost coverage (as per French law), or yearly allowance for the die-hard bicycle users
- Competitive health coverage, with Alan.
- Meal vouchers with Swile, as well as access to a fully equipped and regularly stocked kitchen
- French language courses covered by the company for those interested
Research shows that women might feel hesitant to apply for this job if they don't match 100% of the job requirements listed. This list is a guide, and we'd love to receive your application even if you think you're only a partial match. We are looking to build teams that innovate, not just tick boxes on a job spec.
You will join of one of the most innovative startups in France at an early stage, to be part of a passionate and friendly team on its mission to build the first universal quantum computer!
We love to share and learn from one another, so you will be certain to innovate, develop new ideas, and have the space to grow.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The transition of quantum computing from laboratory-scale proof-of-concept to industrial-grade hardware necessitates a structural shift toward rigorous semiconductor manufacturing protocols. This role type serves as a critical stabilization point within the hardware value chain, converting scientific process development into reproducible, high-yield fabrication cycles. As the ecosystem moves toward fault-tolerant architectures, the systemic necessity for industrial operations management becomes paramount to resolving the "manufacturing chasm" between prototype qubits and scalable processor arrays. Market signals from national quantum strategies and the QED-C highlight that such operational expertise is essential for mitigating the risks of technology obsolescence and ensuring the reliability of deep-tech supply chains. By institutionalizing execution excellence within the cleanroom environment, this function secures the foundation for commercial scalability and long-term hardware roadmap viability.
The quantum hardware landscape is undergoing a decisive shift from research-oriented fabrication to the adoption of industry-standard semiconductor manufacturing frameworks. While fundamental qubit research remains vital, the primary bottleneck for the sector has moved to the scalability of the production environment, specifically regarding the reproducibility of complex superconducting or trapped-ion devices. Current industry dynamics require a sophisticated integration of classical microelectronics fabrication with quantum-specific material constraints, necessitating roles that can bridge the gap between experimental physics and deterministic industrial throughput.
Ecosystem-level constraints, such as the scarcity of talent with concurrent expertise in both quantum information science and semiconductor operations, place a premium on roles that drive operational stability. As organizations move beyond NISQ-era benchmarks, the structural layer of cleanroom management becomes the primary mechanism for maintaining momentum through varying Technology Readiness Levels (TRLs). Furthermore, the evolution of the value chain depends on the ability to transition from bespoke, manual fabrication to automated, data-driven workflows managed by Manufacturing Execution Systems (MES).
Integration with existing global semiconductor supply chains remains a high-priority dependency for the sector. The ability to synchronize internal fabrication cycles with external equipment vendors and material suppliers is a primary determinant of whether a quantum organization can successfully scale its hardware architecture. Consequently, workforce development in operations management is critical for ensuring that the emerging quantum manufacturing sector can meet the data throughput and quality standards required for enterprise-grade adoption.
The capability architecture for this role type centers on the synchronization of advanced fabrication recipes with the protocols of industrial systems engineering. Mastery of the software-hardware interface, specifically regarding Manufacturing Execution Systems (MES) and equipment data traceability, is essential for ensuring that fabrication processes are optimized for the specific constraints of quantum processors. This requires a deep understanding of the integration points between process development engineering and stable operational execution to maximize wafer throughput and minimize cycle-time variability.
These capabilities are fundamental to the throughput of quantum technology organizations, as they enable the parallelization of hardware development alongside the implementation of rigorous quality management frameworks. By establishing deterministic production schedules and maintenance protocols, this function provides the leverage needed to assess the true readiness of quantum hardware before full-scale capital allocation. Furthermore, the ability to manage complex cross-functional dependencies ensures that scientific breakthroughs are reconciled with the practical constraints of industrial fabrication. Such expertise reduces the iteration friction between lab-scale discovery and the deployment of scalable quantum processing units (QPUs). - Accelerates the deterministic transition from laboratory-scale fabrication to industrial-grade quantum hardware manufacturing
- Mitigates systemic execution risks by synchronizing long-term research cycles with near-term production roadmaps
- Facilitates the integration of quantum fabrication recipes into standardized semiconductor manufacturing frameworks
- Strengthens the reliability of organizational technology strategies through the implementation of rigorous operational KPIs
- Reduces iteration friction between fundamental physics breakthroughs and the delivery of scalable QPU architectures
- Optimizes the allocation of specialized technical talent across process development and operational execution portfolios
- Enhances the stability of the quantum hardware value chain by providing predictable requirement frameworks for equipment vendors
- Supports the scaling of qubit counts by managing the complex dependencies of high-yield wafer fabrication workflows
- Improves the transparency of technology readiness level progression for stakeholders in the investment and policy sectors
- Enables the structural reproducibility of quantum devices through the standardization of cleanroom operational protocols
- Protects high-capital research and development investments by ensuring alignment between scientific discovery and commercial scalability
- Orchestrates the convergence of experimental research pathways with the practical demands of industrial-scale semiconductor fabsIndustry Tags: Quantum Hardware, Semiconductor Manufacturing, Cleanroom Operations, Superconducting Qubits, Fault Tolerance, Fabrication Scalability, TRL Progression, Industrial Engineering, Quality Management
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