Pasqal designs and develops Quantum Processing Units and dedicated software tools. These innovative processors address applications which are out of the reach of the most powerful existing supercomputers, encompassing real-world challenges as well as fundamental science. As they are very low energy intensive, they will significantly contribute to reduce the carbon footprint of the computing industry.
Pasqal has partnerships with key users in the fields of energy, IT, finance, drug and chemical design, automotive. The maturity and potential of our technology and the quality of our scientific team has been rewarded several times at French, European and global levels.
About the Job
As a Project Manager, you will lead a multidisciplinary team responsible for designing, manufacturing, and testing laser systems based on integrated photonic circuits. The selected candidate will work closely with the design, manufacturing, testing, product, and operations teams in a fast-paced development environment where technical priorities, timelines, and deliverables must be coordinated with rigor.
The position is based at our offices in Montreal, with occasional travel to the Eastern Townships and Europe. A training period of approximately six months is planned within the development teams to gain a solid understanding of Aeponyx’s products, working methods, and internal processes.
What you will be doing
- Implement and maintain a milestone-based project management structure, including a continuous improvement approach based on PDCA: Plan, Do, Check, Act.
- Lead, coordinate, and monitor the activities of a multidisciplinary team within a matrix organization.
- Plan deliverables, timelines, priorities, and the resources required to move projects forward.
- Coordinate activities with technical experts, integration leads, and the design, manufacturing, testing, product, and operations teams.
- Ensure clear and regular communication with internal clients, technical collaborators, and management throughout the evolution of projects.
- Identify technical, operational, and organizational risks, propose mitigation plans, and follow up on corrective actions.
- Prepare and facilitate follow-up meetings, document decisions, issues, next steps, and each person’s responsibilities.
What we are looking for
- Degree in engineering physics, electrical engineering, computer engineering, or any other relevant field of study related to science or engineering. Training in project management, innovation management, or leadership is an asset.
- Hands-on experience working in a team, with a high level of autonomy in planning, organizing, and executing tasks.
- Strong ability to understand complex technical issues and translate them into clear action plans.
- Excellent communication, simplification, and collaboration skills with teams from diverse areas of expertise.
Bonus Points If You Have
- Knowledge of photonics, microfabrication, microelectronics, electronics, or optical systems integration.
- Relevant experience in technology project management, multidisciplinary team coordination, or technical leadership.*
- Experience in an industrial environment, technology product development, or transfer to production.
The selected candidate must be able to communicate effectively in French, both orally and in writing. Knowledge of English is an asset for collaborating with other scientists who have specific expertise, as well as with partners located outside the country.
General conditions
- Full-time, permanent position
- Annual salary: $80,000 to $100,000, depending on experience and education
- Vacation: starting at 4 weeks per year
- A dynamic, close-knit, collaborative, and diverse international team for co-workers
- An impactful role in a growing scale-up that is leading in the Neutral Atom Quantum Computing space
- Free time to learn and attend conferences/meetups
- Other benefits
Recruitment process
- A 1 hour video interview with hiring manager via Teams Video meeting
- A 30 minute interview with our talent acquisition team via Teams Video meeting
- Final interview to meet the team at our offices
- An offer !
Right to work in Canada without sponsorship is preferred.
About Aeponyx
Based in Montreal, Aeponyx is a leader in the development of integrated silicon nitride photonic devices. Through its patented technology, which combines micro-electromechanical systems (MEMS) and silicon photonics, the company designs and manufactures integrated photonic circuits (PICs) for telecommunications, data centers, and quantum technologies.
Aeponyx is a Canadian subsidiary of Pasqal SAS, a global pioneer in neutral-atom quantum computers.
Pasqal is an equal opportunity employer. We are committed to creating a diverse and inclusive workplace, as inclusion and diversity are essential to achieving our mission. We encourage applications from all qualified candidates, regardless of gender, music preference, ethnicity, age, religion or sexual orientation.
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A propos de Pasqal
Pasqal conçoit et développe des processeurs quantiques (QPUs : Quantum Processing Units) et les outils logiciels associés.
Notre technologie innovante permet de traiter des cas d’usage qui sont à ce jour hors de portée des plus puissants des supercalculateurs ; ces cas peuvent concerner des défis industriels applicatifs aussi bien que les besoins des sciences fondamentales.
Au-delà de la puissance de calcul exceptionnelle qu’ils apportent, les QPUs sont d’une très grande efficacité énergétique et contribueront à réduire fortement l’empreinte carbone de l’industrie du calcul intensif.
Job Description
Vous souhaitez relever un défi stimulant au cœur des technologies de pointe? Vous aimeriez contribuer au développement de dispositifs servant au contrôle d’ordinateurs quantiques? Joignez-vous à l’équipe innovante d’Aeponyx!
En tant que gestionnaire de projet technologique, vous assumerez le leadership d’un équipe multidisciplinaire responsable de concevoir, fabriquer et tester des systèmes lasers basés sur des circuits intégrés photoniques. La personne retenue travaillera en étroite collaboration avec les équipes de conception, de fabrication, de tests, de produits et d’opération, dans un environnement de développement rapide où les priorités techniques, les échéanciers et les livrables doivent être coordonnés avec rigueur.
Le poste est basé à nos bureaux à Montréal avec des déplacements occasionnels en Estrie et en Europe. Une période de formation d’environ six mois est prévue au sein des équipes de développement afin de bien comprendre les produits, les méthodes de travail et les processus internes d’Aeponyx.
Compétences et responsabilités
· Mettre en place et maintenir une structure de gestion de projet par jalons, incluant une approche d’amélioration continue de type PDCA : planifier, réaliser, vérifier et agir.
· Assurer le leadership, la coordination et le suivi des activités d’une équipe multidisciplinaire dans une organisation matricielle.
· Planifier les livrables, les échéanciers, les priorités et les ressources nécessaires à l’avancement des projets.
· Coordonner les activités avec les experts techniques, les responsables d’intégration, les équipes de conception, de fabrication, de tests, de produits et d’opérations.
· Assurer une communication claire et régulière avec les clients internes, les collaborateurs techniques et la direction tout au long de l’évolution des projets.
· Identifier les risques techniques, opérationnels et organisationnels, proposer des plans de mitigation et assurer le suivi des actions correctives.
· Préparer et animer les rencontres de suivi, documenter les décisions, les enjeux, les prochaines étapes et les responsabilités de chacun.
Profil recherché
· Diplôme en génie physique, en génie électrique, en génie informatique, ou tout autres domaines d’étude pertinent lié à la science ou au génie. Une formation en gestion de projet, en gestion de l’innovation ou en leadership constitue un atout.
· Expérience concrète du travail en équipe, avec une grande autonomie dans la planification, l’organisation et l’exécution des tâches.
· Bonne capacité à comprendre des enjeux techniques complexes et à les traduire en plans d’action clairs.
· Excellentes habiletés de communication, de vulgarisation et de collaboration avec des équipes aux expertises variées.
Ce qui pourrait faire la différence :
· Connaissance de la photonique, de la microfabrication, de la microélectronique, de l’électronique ou de l’intégration de systèmes optiques.
· Expérience pertinente en gestion de projet technologique, en coordination d’équipes multidisciplinaires ou en leadership technique.
· Expérience en environnement industriel, en développement de produits technologiques ou en transfert vers la production.
La personne retenue doit être en mesure de communiquer efficacement en français, tant à l’oral qu’à l’écrit. La connaissance de l’anglais constitue un atout pour collaborer avec d’autres scientifiques possédant une expertise particulière, ainsi qu’avec des partenaires situés à l’extérieur du pays.
Conditions
- Poste permanent à temps plein
- Salaire annuel : 80 000 $ à 100 000 $, selon l’expérience et la formation
- Vacances : à partir de 4 semaines par an
- Une équipe internationale dynamique, soudée, collaborative et diverse
- Un rôle à fort impact au sein d’une scale-up en croissance, leader dans le domaine du calcul quantique à atomes neutres
- Du temps dédié pour apprendre et participer à des conférences/meetups
- Autres avantages
À propos d’Aeponyx
Basée à Montréal, Aeponyx (www.aeponyx.com) est un leader dans le développement de dispositifs de photonique intégrée en nitrure de silicium. Grâce à sa technologie brevetée, qui combine les systèmes micro-électromécaniques (MEMS) et la photonique sur silicium, l’entreprise conçoit et fabrique des circuits de photonique intégrée (PIC) destinés aux télécommunications, aux centres de données et aux technologies quantiques. Aeponyx est une filiale canadienne de Pasqal SAS (https://www.pasqal.com/fr/), un pionnier mondial des ordinateurs quantiques à atomes neutres.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The acceleration of the quantum hardware value chain requires a structural shift from laboratory experimentation to industrial-grade manufacturing and system integration. This role type exists to bridge the "valley of death" between photonics research and scalable Quantum Processing Units by synchronizing multidisciplinary engineering cycles. By orchestrating the convergence of silicon photonics, micro-electromechanical systems, and laser control, this function secures the deterministic delivery of enabling infrastructure. Verifiable market signals, such as the U.S. National Quantum Initiative and EU Quantum Flagship mandates, underscore the necessity for technical project leadership to mitigate systemic integration risks. Ultimately, this role acts as a stabilization point in the deep-tech supply chain, ensuring that photonic sub-systems meet the rigorous reliability standards required for commercial-scale quantum deployments.
The quantum ecosystem is currently transitioning from proof-of-concept prototypes to the deployment of high-fidelity, scalable architectures. A primary bottleneck in this evolution is the integration of classical control systems with quantum-native hardware, particularly regarding the precision of optical and photonic interfaces. As organizations move toward neutral-atom and photonic qubit modalities, the complexity of managing the hardware-software interface increases exponentially. This necessitates a sophisticated layer of technical coordination that can navigate the fragmentation of the photonics supply chain and the lack of standardized microfabrication protocols. Current industry focus lies on bridging classical and quantum capabilities at scale, requiring leaders who can synchronize the development of integrated photonic circuits with broader system-level milestones.
Sector-wide efforts continue to address talent and integration challenges in quantum systems, particularly in regional hubs like Montreal and the Eastern Townships. The maturation of the silicon nitride and MEMS-based photonics landscape is a critical dependency for reducing the footprint and energy consumption of future quantum computers. However, the workforce scarcity at the intersection of photonic engineering and industrial project management remains acute. Public-private partnerships and national technology strategies highlight that such cross-functional expertise is essential for maintaining momentum as hardware transitions through higher Technology Readiness Levels (TRLs).
The evolution of the value chain also depends on the ability to translate scientific breakthroughs into reproducible industrial processes without disrupting capital allocation timelines. Consequently, the availability of project managers capable of orchestrating these complex dependencies is a primary determinant of whether a scale-up can successfully transition from R&D to production. This structural layer of expertise ensures that emerging photonic technologies are architecturally compatible with the rigorous demands of global data centers and high-performance computing infrastructures.
The capability architecture for this role type centers on the synchronization of advanced photonic research with the protocols of enterprise-grade systems engineering. Mastery of the hardware-integration layer is essential for ensuring that laser systems and photonic integrated circuits are optimized for the specific constraints of quantum processors, such as coherence preservation and gate fidelity. This requires a deep understanding of the coupling between silicon photonics, micro-opto-electromechanical systems (MOEMS), and high-frequency electronic control layers. These capabilities are fundamental to the throughput of hardware organizations, as they enable the parallelization of manufacturing initiatives alongside the development of scalable PIC architectures.
By establishing rigorous verification and validation frameworks, this function provides the leverage needed to assess the technical readiness of photonic sub-systems before full-scale deployment. Furthermore, the ability to manage complex stakeholder landscapes ensures that scientific outputs are reconciled with the practical constraints of industrial fabrication and global supply chain logistics. Such expertise reduces the iteration friction between abstract photonic design and product delivery, which is critical for long-term interoperability within the emerging quantum-as-a-service market. These structural enablers are the primary mechanism for maintaining the reliability and stability of the hardware layer as it scales toward fault tolerance. - Accelerates the deterministic transition from laboratory-scale photonics to industrial-grade quantum hardware sub-systems
- Mitigates systemic execution risks by synchronizing multidisciplinary engineering cycles with long-term technology roadmaps
- Facilitates the integration of silicon nitride photonic devices into standardized quantum processing unit architectures
- Strengthens the reliability of the deep-tech value chain through the implementation of rigorous milestone-based coordination
- Reduces iteration friction between photonic circuit design and the deployment of scalable hardware infrastructures
- Optimizes the allocation of specialized technical talent across design, microfabrication, and operational testing portfolios
- Enhances the stability of the quantum supply chain by providing predictable requirement frameworks for external partners
- Supports the scaling of hardware capabilities by managing the complex dependencies of hybrid photonic-electronic workflows
- Improves the transparency of technology readiness level progression for stakeholders in the investment and policy sectors
- Enables the structural reproducibility of photonic systems through the standardization of industrial manufacturing protocols
- Protects high-capital research and development investments by ensuring alignment between scientific discovery and commercial scalability
- Orchestrates the convergence of integrated photonics research with the practical demands of global quantum servicesIndustry Tags: Quantum Photonics, Silicon Nitride Integrated Circuits, Neutral Atom Computing, MEMS Integration, Hardware Systems Engineering, Deep Tech Project Management, PIC Manufacturing, Quantum Value Chain, Industrial Scaling
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