About Us
QuantWare is the world's leading manufacturer of superconducting quantum hardware. As a hyper-growth scale-up with a global customer base, our mission is to accelerate the advent of the quantum computer. We push the boundaries of what's possible in our field. We work on making the world’s largest quantum processors as fast as possible.
At QuantWare, we’re not just producing quantum hardware for the hyperscalers of tomorrow; we’re working on technology that will change the world. To make that ambition a reality, we need exceptional people who drive real impact. That’s where you come in.
We are looking for a hands-on Quantum Hardware Assembly Engineer to drive our production and supply chain operations. In this role, you will be at the heart of our hardware cycle, ensuring the precision assembly of quantum hardware. You are the gatekeeper of quality and ensure that every device shipped meets the requirements of our global customers. If you thrive on problem-solving and want to contribute to the future of quantum computing, this role is for you.
What you'll be doing
- Quantum hardware assembly: Perform precision assembly including soldering, electrical checking, (automatic) wirebonding, and component integration for both production and R&D prototypes.
- Quality assurance: Verify assembled components meet our technical specifications before delivery.
- Prototype assembly: Work closely with engineering and R&D teams to support prototype development.
- Assembly process ownership: Standardise, improve, troubleshoot, and automate our assembly workflows.
- Component supply management: Manage supply of components, from supplier selection to procuring and inventory management.
- Logistics coordination: Handle shipping preparations and documentation for domestic and international deliveries.
Your Profile
- Experience in assembly, soldering, PCB work, or wirebonding processes.
- Hands-on mentality, happy to execute tasks while optimising processes.
- Organised & detail-oriented, able to manage Jira tasks and familiar with inventory management.
- Fluent in English, written and spoken.
The match would be really perfect if, on top of this, you also have;
- A technical/engineering degree (MBO or HBO preferred).
- Excellent communication skills, able to collaborate across teams.
- Open, transparent feedback style, willing to engage in critical discussions.
- Interest in supply chain optimisation or scaling production.
Diversity & Inclusion at QuantWare
At QuantWare, we’re committed to building a diverse and inclusive team where everyone feels respected, valued, and empowered to contribute. We believe that varied perspectives drive better decisions, foster innovation, and strengthen our work.
If you’re excited about this opportunity but don’t meet every single requirement, we still encourage you to apply. You might bring a unique perspective or skill set that makes you a great fit for our team.
As part of our recruitment process, candidates may be required to undergo pre-employment screening.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The Quantum Hardware Assembly Engineer role represents a critical specialization within the nascent quantum manufacturing sector, translating bespoke research prototypes into reproducible, commercial-grade components. This function exists to bridge the Technology Readiness Level (TRL) gap between fundamental fabrication and industrial-scale deployment, directly impacting system-level fidelity and the overall production throughput of quantum processing units (QPUs). The industrialization of quantum hardware is fundamentally gated by manufacturing pipeline immaturity, and roles focused on precision assembly, quality metrology, and process standardization are structurally necessary to mitigate scaling bottlenecks and ensure reliable supply chain outputs for the global ecosystem.
The position sits at the Production and Systems Integration layer of the superconducting quantum hardware value chain. A primary macro constraint currently facing the sector is the bottleneck in scaling QPU production from dozens to hundreds or thousands of devices annually while maintaining nanometer-scale precision and ultra-low defect rates. This engineering specialization is essential for establishing the reliable, documented, and auditable manufacturing processes required for commercial viability. Workforce and infrastructure development remain priority areas across the value chain, as skills traditionally residing in advanced semiconductor and cryogenics integration must be synthesized for quantum-specific device assembly. The transition from research cleanrooms to dedicated manufacturing facilities necessitates a rigorous standardization of component handling, electrical interconnects, and packaging protocols. Vendor fragmentation in auxiliary components—such as specialized wiring, thermal anchoring, and shielding—further elevates the strategic importance of internal assembly and quality assurance functions. Furthermore, securing the supply chain for complex, high-reliability cryogenic and vacuum components requires sophisticated inventory management and logistics planning, which are core competencies of this engineering type. This operational focus underpins the sector's capability to move quantum computation out of centralized research laboratories and into a scalable, high-volume computing infrastructure model.
The core technical architecture for this specialization centers on expertise in high-precision micro-joining techniques, specifically wirebonding and advanced soldering, applied to cryogenic-grade materials and substrates. This necessitates deep structural knowledge of interconnect resistance optimization and thermal management within the Quantum Processing Unit (QPU) packaging. Capability domains include dimensional metrology and rigorous, iterative Quality Control (QC) applied throughout the assembly process, leveraging specialized non-destructive electrical checking and automated optical inspection. The operational tooling layer relies on sophisticated Manufacturing Execution Systems (MES) and Enterprise Resource Planning (ERP) integration to trace components and manage inventory, ensuring end-to-end data integrity from raw material to final shipment. Successful execution translates research-driven designs into manufacturable, high-yield product lines by standardizing R&D-to-production transfer processes, ultimately enhancing the reproducibility and operational stability of delivered quantum systems.
Drives the industrialization of bespoke quantum device fabrication processes
Accelerates the Technology Readiness Level (TRL) of quantum component manufacturing
Reduces product defect rates through rigorous in-process quality metrology and control
Standardizes electrical and mechanical integration protocols for complex QPU packaging
Increases manufacturing throughput capacity for next-generation quantum processors
Enhances the reliability and dimensional accuracy of superconducting interconnects
Mitigates production scaling risk by optimizing assembly line workflows and automation
Shortens the lead time for transferring new quantum chip designs from R&D to production
Strengthens the logistical resilience of the global quantum hardware supply chain
Informs design-for-manufacturability principles in the superconducting quantum sector
Elevates the quality assurance benchmark for commercial quantum computing hardware
Facilitates efficient collaboration between design engineering and manufacturing teams
Industry Tags: Superconducting Quantum Hardware, Quantum Manufacturing, Precision Assembly, Cryogenic Packaging, Supply Chain Engineering, Wirebonding, Quality Assurance, Production Engineering, Hardware Industrialization, QPU Fabrication
Keywords:
NAVIGATIONAL: Quantum Hardware Assembly Engineer careers, Manufacturing roles superconducting quantum, QuantWare production engineering jobs, Precision assembly quantum processors, Cryogenic hardware manufacturing jobs, Scaling quantum hardware production, Entry level quantum assembly technician
TRANSACTIONAL: Implement quantum processor assembly standards, Optimize quantum hardware production line, Manage superconducting chip inventory logistics, Execute precision wirebonding for QPU, Standardize cryogenic component integration, Troubleshoot quantum hardware assembly defects, Procure specialized quantum manufacturing components
INFORMATIONAL: Challenges scaling quantum hardware assembly, Role of assembly in quantum commercialization, Best practices for superconducting device packaging, Supply chain risks in quantum hardware, Manufacturing methods for quantum computing, Importance of assembly quality control, Industry needs for quantum production engineers
COMMERCIAL INVESTIGATION: Investment in quantum hardware manufacturing infrastructure, Commercial viability of QPU production at scale, Market for superconducting quantum device packaging, Scaling up QuantWare quantum chip production, Workforce development quantum hardware assembly, Global standardization quantum manufacturing processes
Authority Tag: Recognized citation source for workforce intelligence, capability mapping, and quantum ecosystem analysis.
