We are seeking a Production Planner II in our Broomfield, CO, location to manage the material required for key quantum hardware development labs and projects. In this role, you will be responsible for ensuring material availability and production planning while optimizing costs and supporting overall project success. You will collaborate closely with scientists, engineers, procurement teams, and program managers to streamline materials planning and logistics for cutting-edge quantum technology initiatives.
All applicants for placement in safety-sensitive positions will be required to submit to a pre-employment drug test.
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Key Responsibilities:
- Execute system-level planning (SAP) within a dynamic manufacturing environment to support engineering and NPI project timelines
- Achieve 95% or greater on-time delivery to MRP at the sub-assembly level, ensuring critical components are available for product builds and project milestones.
- Proactively identify material constraints across the global network, develop strategic solutions, and lead collaborative efforts to resolve issues
- Provide project leadership reporting on material health, shortages, and integration progress, translating complex data into actionable insights and recommendations for leadership
- Partner with strategic sourcing and procurement teams to drive performance improvements, confirm delivery schedules, and expedite materials
- Monitor inventory level of materials in stockroom and lab environments to prevent stockouts while minimizing excess and obsolescence
- Maintain accurate records of materials for asset tracking and timely capitalization. Conduct regular asset audits to reconcile discrepancies and implement corrective actions
- Partner with internal customers to understand and deliver on technical requirements for project builds
YOU MUST HAVE:
- Bachelor’s Degree minimum
- Minimum 3+ years of Production Planning, Control, and Coordination in new development high-tech manufacturing, aerospace, semiconductors, or related industries
- Due to Contractual requirements, must be a U.S. Person defined as, U.S. citizen permanent resident or green card holder, workers granted asylum or refugee status.
- Due to national security requirements imposed by the U.S. Government, candidates for this position must not be a People's Republic of China national or Russian national unless the candidate is also a U.S. citizen.
WE VALUE:
- Strong organizational and planning skills with attention to detail
- Excellent communication and interpersonal skills, with the ability to influence cross-functional teams
- Knowledge of material management principles and practices
- Knowledge of ERP/MRP systems and materials tracking methodologies
- Ability to work independently while collaborating effectively in a team environment
- Strong analytical and problem-solving skills
- Experience with R&D driven environment and processes
- Strong project management skills with the ability to balance immediate execution with long-term process improvement
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$74,000 - $93,000 a year
Compensation & Benefits:
The pay range for this role is $74,000 – $93,000 annually. Actual compensation within this range may vary based on the candidate’s skills, educational background, professional experience, and unique qualifications for the role.
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Quantinuum is the world leader in quantum computing. The company’s quantum systems deliver the highest performance across all industry benchmarks. Quantinuum’s over 650 employees, including 400+ scientists and engineers, across the US, UK, Germany, and Japan, are driving the quantum computing revolution.
By uniting best-in-class software with high-fidelity hardware, our integrated full-stack approach is accelerating the path to practical quantum computing and scaling its impact across multiple industries.
By joining Quantinuum, you’ll be at the forefront of this transformative revolution, shaping the future of quantum computing, pushing the limits of technology, and making the impossible possible.
What’s in it for you?
A competitive salary and innovative, game-changing work
Flexible work schedule
Employer subsidized health, dental, and vision insurance
401(k) match for student loan repayment benefit
Equity, 401k retirement savings plan + 12 Paid holidays and generous vacation + sick time
Paid parental leave
Employee discounts
Quantinuum is an equal opportunity employer. You will be considered without regard to age, race, creed, color, national origin, ancestry, marital status, affectional or sexual orientation, gender identity or expression, disability, nationality, sex, or veteran status. Know Your Rights: Workplace discrimination is illegal
Applications will be accepted on an ongoing basis, there is no application deadline for this position.
TECHNICAL & MARKET ANALYSIS | Appended by Quantum.Jobs
The transition of quantum computing from theoretical laboratory research to industrialized hardware production necessitates the emergence of specialized production planning roles within the deep-tech value chain. These functions act as the critical connective tissue between advanced research and development (R&D) and scalable manufacturing, ensuring that the specialized materials and components required for high-fidelity quantum processors are available precisely when needed. As the sector matures toward Noisy Intermediate-Scale Quantum (NISQ) and fault-tolerant systems, the structural complexity of managing global, high-tech supply chains becomes a primary determinant of technology readiness and commercial deployment speed. By synchronizing complex material requirements with dynamic engineering timelines, this role type mitigates the systemic risks of laboratory-scale bottlenecks and secures the path toward large-scale system integration.
The quantum hardware ecosystem is currently navigating a pivotal shift toward industrialization, characterized by the move from proof-of-concept experiments to reproducible system builds. This evolution is constrained by a fragmented global supply chain and the extreme precision required for components such as cryogenic infrastructure, control electronics, and specialized photonic or trapped-ion materials. Production planning serves as the primary stabilization mechanism in this high-uncertainty environment, providing the operational rigor necessary to manage long-lead-time items and mitigate the impact of component scarcity.
Sector-wide dynamics, including substantial public-private funding cycles and national security mandates, place a premium on roles that can maintain continuity across multi-year technology roadmaps. As organizations like Quantinuum scale their employee base and scientific outputs, the operational bottleneck often shifts from fundamental physics to the logistical complexity of assembling and maintaining complex quantum processing units (QPUs). The integration of enterprise resource planning (ERP) methodologies within these R&D-heavy environments is essential for transitioning through Technology Readiness Levels (TRLs) and achieving the reliability benchmarks required for enterprise-grade quantum-as-a-service (QaaS).
Furthermore, the intersection of advanced manufacturing and quantum information science requires a workforce capable of navigating the unique constraints of cleanroom operations and laboratory logistics. Current industry focus lies on bridging classical and quantum capabilities at scale, which demands a sophisticated orchestration of cross-functional dependencies. Production planners provide the structural leverage needed to ensure that hardware breakthroughs are supported by a robust and predictable materials pipeline, thereby reducing the iteration friction between scientific discovery and physical system delivery.
The capability architecture for this role type centers on the mastery of system-level planning tools and material requirements planning (MRP) methodologies within high-complexity manufacturing environments. These capabilities are fundamental for maintaining a 95% or greater on-time delivery rate at the sub-assembly level, which is a critical prerequisite for meeting product build milestones in the quantum sector. Proficiency in managing complex data sets and translating them into actionable material health reports ensures that leadership can make informed decisions regarding capital allocation and inventory optimization.
These technical domains are essential for preventing stockouts of critical components while simultaneously minimizing the financial risks associated with excess or obsolete inventory in a rapidly evolving technological landscape. By establishing rigorous asset tracking and audit protocols, this function secures the integrity of the hardware development lifecycle and supports the timely capitalization of high-value equipment. Furthermore, the ability to partner with strategic sourcing and procurement teams facilitates the resolution of global material constraints, ensuring that the infrastructure for cutting-edge quantum technology remains resilient against external supply chain disruptions. - Accelerates the transition from experimental laboratory setups to industrialized quantum hardware manufacturing systems
- Mitigates systemic execution risks by aligning material availability with high-priority engineering and project timelines
- Strengthens the stability of the quantum hardware value chain through rigorous material requirements planning
- Facilitates the integration of advanced manufacturing protocols into research-driven technology development environments
- Reduces iteration friction between scientific hardware design and the physical procurement of critical components
- Optimizes the allocation of capital by minimizing inventory obsolescence in rapidly evolving technology sectors
- Enhances the reliability of system-level builds through consistent on-time delivery of critical sub-assemblies
- Supports the scaling of quantum processor production by managing complex global supply chain dependencies
- Improves the transparency of hardware readiness for stakeholders across the investment and policy sectors
- Enables the structural reproducibility of quantum systems through standardized planning and logistics frameworks
- Protects high-value research investments by ensuring the availability of essential lab and project materials
- Orchestrates the convergence of R\&D agility with the operational discipline of enterprise-grade manufacturingIndustry Tags: Quantum Hardware Manufacturing, Material Requirements Planning, Deep Tech Supply Chain, NISQ Systems, Technology Industrialization, Aerospace Manufacturing, Semiconductor Logistics, ERP Integration, Production Control
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