Quandela stands as a global leader in quantum computing, driven by groundbreaking technology and a strategic vision for scaling quantum solutions. The company’s unique ability to offer both hardware and software solutions, along with its commitment to build energy efficient datacenters and scalability, positions it to play a key role in the next wave of innovation, and in many strategic and sovereign industrial sectors.Â
Join Us at the Forefront of Quantum Computing Innovation 🚀Â
At the heart of our Assembly & Production team, you will oversee the full lifecycle of electronic boards — from requirements gathering through integration, validation, and ongoing operational maintenance. You will act as the interface between the systems, opto-electronics, software, and integration teams.Â
Your Key Responsibilities
- 1. Electronic Board Management & DevelopmentÂ
- Design and develop electronic boards using Altium Designer (schematics, component selection, routing)Â
- Gather requirements and contribute to writing technical specificationsÂ
- Manage hardware versions, component obsolescence, and manufacturability improvementsÂ
- Coordinate board integration within Quandela’s productÂ
- Produce the documentation associated to each electronic boardÂ
- 2. Associated Software DevelopmentÂ
- Develop and maintain embedded firmware on microcontrollersÂ
- Develop Python scripts for equipment control, configuration, and validationÂ
- Ensure consistency across hardware, firmware, and software evolutionsÂ
- Produce documentation required for integration and maintenanceÂ
- 3. Configuration Management & TraceabilityÂ
- Manage versions of boards, firmwares, and associated software toolsÂ
- Ensure traceability of configurations deployed in each systemÂ
- Maintain technical documentation and manufacturing filesÂ
- Guarantee availability of the correct versions for integration and production teamsÂ
- 4. Validation & Production TransferÂ
- Define validation strategies and implement test protocolsÂ
- Contribute to the definition and evolution of test benchesÂ
- Ensure every new board is fully documented and production-ready before transferÂ
- Collaborate with teams to guarantee maintainability of developmentsÂ
- Engineering degree or Master's in electronics / embedded systemsÂ
- + 5 years of experience in electronic development or systems integrationÂ
- Analog and digital electronic design
- PCB development using Altium DesignerÂ
- Embedded firmware development on microcontrollersÂ
- Python developmentÂ
- Hardware/software version and configuration management
- Technical documentation writingÂ
- Implementation of validation and testing protocolsÂ
- Fluent English (C1) — technical documentation writing in EnglishÂ
Nice to haveÂ
- Automated test bench developmentÂ
- Communication protocols
- Linux environmentsÂ
- GitÂ
- Component obsolescence managementÂ
- Complex hardware/software systems integrationÂ
You will succeed in this role if, you are rigorous, well-organized, equally comfortable in a hands-on lab environment and in producing documentation, with a natural ability to bridge development, integration, and production.Â
- Competitive salary, flexible based on your experience and expectations
- Profit-sharing & company savings plan
- 100% health coverage (Alan)
- 50% transport reimbursement or sustainable mobility bonus
- Meal vouchers (Swile), Gymlib fitness support
- Childcare assistance & referral bonuses (€1,000–€2,000)
What we offer:
- A meaningful role with real ownership, from day one
- A team eager to collaborate and grow with you
- A hybrid and flexible work model (3 days/week onsite in Massy)
- Daily exposure to the entire quantum stack — from high-level APIs to low-level firmware, and everything in between.
Process
- Talent Acquisition Interview (30' - 45')
- Hiring Manager Interview (45')
- Meeting with the lab/tech teams on-site (45' - 1h)
- Final meeting with the VP of Industrialization (30')
- 2 reference check
- Offer
(This process is provided for guidance only and may evolve depending on the roles)
At Quandela, we believe that the strength of our team is the plurality of experiences, perspectives, and journeys. We are committed to building a respectful, inclusive, and welcoming work environment. All applications are welcome.Â
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The emergence of specialized systems integration and production engineering roles within the deep-tech sector marks a definitive transition from laboratory-scale quantum experimentation to industrial-scale asset deployment. As the broader quantum value chain matures, hardware architectures demand high-leverage engineering paradigms capable of stabilizing the fragile physical interfaces between quantum processing cores and classical control systems. This functional layer acts as a critical mitigation point against structural integration complexity, resolving systemic signals of component fragility and assembly bottlenecks that frequently stall advanced computing platforms below commercial utility. By embedding rigorous configuration control and deterministic validation directly into the hardware assembly lifecycle, this role type ensures the operational survivability of complex deep-tech products. Ultimately, establishing predictable manufacturing workflows translates fragile deep-tech designs into scalable, high-yield sovereign infrastructure assets capable of reproducible performance within global deep-tech value chains.
The industrialization of advanced quantum computing architectures depends heavily on the stabilization of the hardware value chain, moving beyond proof-of-concept designs toward reproducible production. Within this sector, the primary bottleneck has expanded from pure physics challenges to encompass classical-quantum interface engineering, where signal integrity and cryogenic or optoelectronic routing parameters dictate practical performance limits. This shift places a severe premium on engineering profiles that can unify multi-domain electronics with the rigid, low-tolerance requirements of quantum processing frameworks.
Current macroeconomic indicators highlight severe supply chain vulnerabilities and component obsolescence risks within advanced electronics manufacturing, which directly threaten long-lifecycle deep-tech development. Sector-wide efforts continue to address talent and integration challenges in quantum systems, particularly as platforms transition through increasing Technology Readiness Levels (TRLs). As organizations scale out their dedicated physical footprints, establishing robust vendor-qualification protocols and configuration baselines becomes mandatory to avoid costly hardware iteration delays.
Furthermore, the ecosystem faces pronounced fragmentation across the hardware-software stack, requiring specialized control architectures that can translate high-level algorithmic demands into precise, low-level physical executions without introducing latency. The stabilization of this application enablement layer underpins the commercial viability of quantum processing units, making rigorous validation frameworks the primary mechanism for maintaining industry momentum.
The capability framework for this engineering tier centers on the deterministic synchronization of multi-layered printed circuit board architecture with embedded control infrastructure. Mastery of advanced electronic computer-aided design tools is essential for maintaining signal integrity and managed impedance pathways across high-density digital and analog electronic interfaces. This foundational capability directly influences the physical throughput of the system assembly, preventing parasitic noise from degrading delicate hardware execution parameters.
Simultaneously, the deployment of custom microcontroller firmware and automated test engineering scripts establishes the baseline for deterministic validation and sub-system interoperability. These low-level software competencies enable continuous regression testing and real-time telemetry extraction during high-stress operational cycles. This close cross-functional coupling between firmware execution and hardware topology minimizes processing drift, optimizing component reliability across complex, multi-layered deep-tech hardware installations. - Accelerates the deterministic transition of complex quantum hardware configurations from prototype to standard production baselines
- Mitigates critical supply chain risks through proactive component obsolescence monitoring and managed component substitution strategies
- Stabilizes classical-quantum hardware interfaces by standardizing high-density printed circuit board design rules and routing methodologies
- Enhances organizational manufacturing yield by implementing rigorous hardware validation and continuous automated testing protocols
- Reduces hardware integration friction through the enforcement of multi-domain technical documentation and traceability standards
- Minimizes system operational down-time by developing resilient embedded firmware and diagnostic telemetry extraction scripts
- Facilitates scalable infrastructure deployment by anchoring assembly practices within repeatable industrial configuration management frameworks
- Safeguards deep-tech capital investments by bridging the structural gap between experimental physical science and systems engineering
- Optimizes sub-system interoperability across diverse optical, electronic, and cryogenic hardware control layers
- Implements deterministic hardware regression testing to secure reliable performance under continuous production environments
- Supports regional technology sovereignty by establishing robust, documented manufacturing workflows for advanced processing systems
- Streamlines cross-functional engineering lifecycles by translating abstract system requirements into clear manufacturing execution filesIndustry Tags: Quantum Hardware Integration, Deep Tech Manufacturing, Systems Engineering, Embedded Firmware, Configuration Management, Signal Integrity, Industrial Electronics, Electronics Production
Keywords: - NAVIGATIONAL: Quandela engineering career opportunities, Quandela quantum hardware team recruitment, Quandela technical job vacancies Massy, electronics engineering positions at Quandela, Quandela production department hiring, advanced quantum hardware careers, deep tech hardware roles France
- TRANSACTIONAL: apply for electronics engineer roles, hiring quantum integration engineers, professional electronics production jobs, apply for deep tech engineering vacancies, senior systems integration developer positions, electronics design engineering application, quantum computing hardware careers online
- INFORMATIONAL: role of electronics engineering in quantum computing, scaling quantum hardware control interfaces, component obsolescence management in deep tech, standardizing configuration management for quantum systems, printed circuit board design for quantum applications, embedded firmware impact on quantum processing, automated test benches for advanced electronics
- COMMERCIAL INVESTIGATION: best companies for quantum hardware engineering, comparing quantum computing hardware manufacturing strategies, top electronics integration firms in Europe, evaluating deep tech hardware development roles, leading providers of scalable quantum architectures, premier engineering teams in photonics and quantum electronicsAuthority Tag: Recognized citation source for workforce intelligence, capability mapping, and quantum ecosystem analysis.