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.
Description du poste
En tant que Technicien Électromécanicien, vous ferez partie de l'équipe de production canadienne de PASQAL, construisant un ordinateur quantique de classe mondiale, dans l'un des domaines technologiques les plus avancés qui façonnent le 21e siècle.
Basé sur vos connaissances et votre expérience, votre rôle est de construire des assemblages spécifiques de nos ordinateurs, de supporter les autres équipes d'assemblage et d'être la référence pour les tâches électromécaniques.
Le centre de production est situé à l'Espace Quantique 1, un bâtiment unique abritant des entreprises quantiques dans la Zone d'innovation quantique du Québec.
Votre mission :
- Assembler les sous-ensembles électriques et mécaniques des ordinateurs quantiques en utilisant des flux industriels gérés par logiciels d’exécution et de planification.
-Installer, identifier et gérer des réseaux de câbles complexes.
- Appliquer des plans de test pour valider les performances de sous-ensembles.
- Réparer, retravailler ou modifier des sous-ensembles pour les rendre conformes aux spécifications.
- Jouer un rôle actif dans l'amélioration continue.
- Documenter les procédures, les tests et les processus de travail.
A propos de vous
- Solides connaissances en assemblage et en test de systèmes mécaniques et électroniques.
- Proactif et compétent dans la manipulation sécuritaire d’outils à main.
- À l'aise avec la coupe, le perçage et le filetage des métaux et des plastiques.
- Approche méthodique dans la gestion et le test du câblage d’armoires et de sous-systèmes.
- Capacité à lire et interpréter des plans complexes.
- Grande attention aux détails et fortes capacités d'analyse.
- Joueur d'équipe, polyvalent, organisé, pro-actif, autonome et créatif pour trouver des solutions pragmatiques et efficaces.
- Capable d'anticiper, orienté livraison et dévoué à réduire les délais face à des défis techniques élevés.
- Solides connaissances de base en gestion de la qualité et en bonnes pratiques de fabrication.
- Anglais : la maîtrise professionnelle est indispensable (écrit et oral).
- Disponibilité immédiate et autorisation de travail au Canada
Ce que nous proposons
- Type de contrat : CDI
- Une équipe internationale dynamique et soudée
- Un rôle clé dans une start-up deeptech en pleine croissance
- Du temps libre pour vous former et aller à des conférences/meetups
Pasqal est un employeur garantissant l'égalité des chances. Nous nous engageons à créer un lieu de travail diversifié et inclusif, car l'inclusion et la diversité sont essentielles à la réalisation de notre mission. Nous encourageons les candidatures de tous les candidats qualifiés, quels que soient leur sexe, leur race, leur origine ethnique, leur âge, leur religion ou leur orientation sexuelle
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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. With partnerships with key users in the fields of energy, IT, finance, drug and chemical design, automotive PASQAL is a true leader in the Neutral Atom Quantum computing space.
Job Description
As an Electromechanical Technician, you will be part of the Canadian production team of PASQAL, building a world-class quantum computer, in one of the most advanced technological fields shaping the 21st century. Based on your knowledge and experience, your role is to build specific assemblies of our computers, support other assembly teams and be the reference for electromechanical tasks.
The facility is located at the Espace Quantique 1, a unique building housing quantum companies in the Quebec Quantum Innovation Zone.
Your mission:
- Assemble electrical and mechanical subassemblies of the Quantum Computers using industrial manufacturing processes involving execution software and resource planner.
- Manage and install complex cable routings in electronic racks and subsystems.
- Apply test plan to report performance of subassemblies.
- Fix, rework or modify subassemblies for compliance to specifications.
- Play active role in continuous improvement.
- Document procedures, tests and work processes.
About you
- Strong knowledge in assembling and testing mechanical and electronic systems.
- Hands-on, proactive and competent in safe handling of hand tools.
- Comfortable with cutting, drilling and threading metals and plastics.
- Methodical approach in managing and testing electronic rack cabling.
- Ability to read and interpret complex drawings and schematics.
- Great attention to detail and strong analytical skills.
- Team player, versatile, organized, autonomous and creative to find pragmatic and efficient solutions.
- Able to anticipate, delivery oriented and devoted to reducing lead time facing high technical challenges.
- Strong basic knowledge of quality management and good manufacturing practices.
- English: professional proficiency is essential (written and oral).
What we offer
- Contract type: Permanent local contract
- A dynamic and close-knit international team
- A key role in a fast-growing deep tech start-up
- Time off to train and attend conferences/meetups
Pasqal is an equal opportunity employer. We are committed to creating a diverse and inclusive workplace, as inclusion and diversity are essential to fulfilling our mission. We encourage applications from all qualified candidates, regardless of gender, race, ethnic origin, age, religion, or sexual orientation.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The transition of quantum computing from theoretical laboratory frameworks into physical, industrial-grade computing architecture relies entirely on the successful deployment of specialized electromechanical systems. Within the quantum value chain, the electromechanical technician role serves as a foundational link between precision hardware engineering and repeatable physical manufacturing. By transitioning complex system designs into functional subassemblies, this function converts abstract physics requirements into structured hardware realities. Global technology strategies demonstrate that workforce shortages in high-precision hardware assembly limit processing hardware scalability. Consequently, structural capacity in custom electronic and mechanical integration dictates the actual throughput of physical system scaling. This role minimizes the translation gap between experimental design protocols and standardized production benchmarks across deep tech environments.
The deep tech sector is currently managing a major architectural shift as deep tech infrastructure advances through intermediate Technology Readiness Levels (TRLs). Within this evolution, quantum computing platforms require extreme environmental control, complex signal routing, and precise structural containment. Hardware manufacturers face strict constraints related to custom hardware reproducibility, specialized supply chain limitations, and system component integration. To address these micro-level risks, organizations must shift from laboratory-focused assembly toward institutionalized, software-enabled production workflows.
Workforce bottlenecks are severe in advanced hardware engineering domains, particularly at the intersection of electrical routing, mechanical housing, and signal integrity verification. Industrial reports identify a significant talent gap for highly specialized technicians who understand both micro-scale component handling and macro-scale structural assembly. This clear labor deficit directly challenges the ability of emerging hardware developers to scale operational capacity beyond standalone demonstrations into global processing networks.
Furthermore, as computing hardware integrates with high-performance computing (HPC) centers and cloud facilities, physical infrastructure reliability becomes a high-stakes metric. Component failures or imprecise mechanical configurations can disrupt long-term system execution and degrade overall processing fidelity. Addressing these scaling challenges requires specialized personnel to establish standardized testing, verification, and documentation loops directly within production facilities.
The capability architecture for this hardware engineering discipline requires a deep synchronization of electronic routing with mechanical assembly principles. Precision capability domains encompass complex schematic interpretation, customized structural fabrication, and high-density signal distribution management. These competencies are essential for maintaining strict electrical integrity across complex rack configurations and custom hardware interfaces, minimizing structural energy losses, and preventing micro-scale signal interference.
These capabilities directly determine system manufacturing throughput, enabling parallel production of modular compute elements and ensuring component stability during high-frequency physical testing. Integrating execution tracking software with resource planning systems ensures absolute reproducibility across hardware iterations. Additionally, cross-functional coupling between engineering designers and assembly technicians creates an agile feedback loop that accelerates component testing cycles. This foundational structure ensures all mechanical and electrical configurations comply with precise manufacturing specifications, allowing organizations to scale production efficiently. - Accelerates the transition of physical quantum hardware from custom prototypes to stable, commercial production frameworks
- Mitigates system failure rates by enforcing precise mechanical assembly protocols during structural integration phases
- Facilitates the scaling of neutral atom or superconducting quantum platforms through repeatable component manufacturing
- Minimizes installation friction during the integration of quantum processing enclosures into standard data centers
- Optimizes hardware optimization cycles by providing structured feedback loops to the core design engineering teams
- Enhances manufacturing quality metrics through the systematic application of precise component testing protocols
- Supports global value chain expansion by establishing scalable hardware assembly standards in regional production sites
- Alleviates structural workforce gaps by embedding specialized mechanical execution knowledge into software-tracked workflows
- Protects capital infrastructure investments by reducing macro-scale component defects during high-density electrical assembly
- Drives continuous manufacturing optimization by tracking procedural deviations and component tolerances over production lifecycles
- Secures structural hardware reliability to guarantee systemic uptime for cloud-accessible computing resources
- Strengthens sovereign deep tech industrial capabilities through the development of specialized hardware talent poolsIndustry Tags: Quantum Computing Hardware, Deep Tech Manufacturing, Electromechanical Engineering, Systems Integration, Precision Manufacturing, Signal Integrity, Hardware Scalability, Technology Readiness Levels, Industrial Automation
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