At a Glance
- Tasks: Create lithographic mask layouts for quantum devices and collaborate with engineers across disciplines.
- Company: Join OQC, a pioneering company in quantum computing and scientific innovation.
- Benefits: Competitive salary, health benefits, and a dynamic work culture focused on collaboration.
- Other info: Exciting opportunity for career growth in a fast-paced R&D environment.
- Why this job: Make a real impact in the quantum field and work with world-class scientists and engineers.
- Qualifications: BSc in STEM or equivalent experience; familiarity with EDA tools and layout generation.
The predicted salary is between 36000 - 60000 £ per year.
At OQC, we’re building quantum computers to power the next era of scientific discovery and commercial innovation. Our mission is to put quantum in the hands of humanity and we’re looking for exceptional engineers to help us achieve it. We are seeking a Layout Engineer to join our Materials Science & Device Engineering (MSDE) team. In this hands‑on role, you will own the creation of lithographic mask layouts that translate quantum device designs into fabrication‑ready GDS layouts, driving quality, consistency and scalability across mask production.
The Role
You will transform conceptual device designs into manufacturable layouts, maintaining robust methodologies that ensure reliability and traceability across projects. Working closely with quantum, fabrication, RF, and cryogenic engineers, you’ll ensure layouts are accurate and process‑aligned. Beyond layout delivery, you will strengthen our design ecosystem by developing reusable component libraries, enhancing DRC/LVS sign‑off flows, and introducing automation, helping evolve our approach toward a scalable, PDK‑like framework in a fast‑moving R&D environment.
What you’ll be working on:
- Own: Generate fabrication‑ready GDS mask layouts for lithographic patterning of quantum circuits, ensuring precision, clarity and alignment with process capabilities.
- Standardise: Develop and maintain internal layout methodologies and design processes that drive consistency, reliability and traceability across projects and mask generations.
- Collaborate: Work cross‑functionally with quantum, nanofabrication, RF and mechanical engineers to translate component concepts into manufacturable layouts, contributing actively to feasibility and design discussions.
- Build: Create and curate a scalable, reusable component library, consolidating existing assets into a unified, evolving PDK‑like framework.
- Validate: Define, expand and maintain robust DRC and LVS sign‑off flows, including custom rule development for non‑standard devices and research‑oriented fabrication processes.
- Automate: Develop and refine layout workflows using tools such as KLayout, L-Edit, Cadence, Synopsys or Qiskit Metal, leveraging Python scripting to streamline layout generation, integration and validation.
- Improve: Identify opportunities to enhance layout robustness, efficiency and scalability, recommending new tools, methodologies and automation strategies.
What We’re Looking For
We value precision, structured problem‑solving and a strong drive for quality in complex engineering environments.
- Design Experience: Experience with EDA and mask layout tools (e.g. KLayout, L-Edit or equivalent) to produce high‑quality lithographic mask layouts for device fabrication.
- Translate requirements: Experience of converting device and component design concepts into fabrication‑ready GDS outputs, ensuring accuracy, clarity and manufacturability.
- Validation: Able to apply design rules and execute robust DRC and LVS checks to ensure layouts meet process and integration requirements.
- Automation: Demonstrable background in streamlining layout generation, verification and validation workflows.
- Develop: Introduce and develop reusable component libraries or PDK‑like frameworks.
- Collaborative: Worked effectively across multidisciplinary teams to align design intent with physical implementation.
- Documentation: Maintained clear documentation, version control and traceability of layout assets to support sign‑off, reproducibility and process tracking.
Qualifications: Bring a BSc in a relevant STEM subject or equivalent practical experience, demonstrating strong foundational technical knowledge.
The “nice to haves”
- Experience with Qiskit Metal or similar layout‑generation frameworks.
- Exposure to non‑CMOS or research‑oriented fabrication processes with evolving or incomplete PDKs.
Why Join OQC?
At OQC, you’ll work alongside world‑class scientists and engineers redefining what’s computationally possible. This is a rare opportunity to contribute directly to the physical realisation of quantum processors, turning advanced device concepts into tangible, fabricated systems. If you’re motivated by precision engineering, collaborative innovation and the challenge of building tools and frameworks in a cutting‑edge quantum environment, this is a role where your work will have lasting technical impact.
Layout Engineer in Reading employer: Oxford Quantum Circuits
At OQC, we pride ourselves on fostering a collaborative and innovative work culture that empowers our employees to push the boundaries of quantum technology. As a Layout Engineer, you will not only contribute to groundbreaking projects but also benefit from extensive professional development opportunities and a supportive environment that values precision and quality. Located in a vibrant tech hub, OQC offers unique advantages such as access to cutting-edge resources and a community of world-class scientists and engineers dedicated to making a meaningful impact in the field of quantum computing.
StudySmarter Expert Advice🤫
We think this is how you could land Layout Engineer in Reading
✨Tip Number 1
Network like a pro! Reach out to current employees at OQC on LinkedIn or other platforms. Ask them about their experiences and any tips they might have for landing the Layout Engineer role. Personal connections can make a huge difference!
✨Tip Number 2
Prepare for technical interviews by brushing up on your EDA tools and layout methodologies. We recommend practising common layout problems and discussing your past projects. Show them you know your stuff and can think on your feet!
✨Tip Number 3
Don’t forget to showcase your collaborative spirit! Be ready to discuss how you've worked with multidisciplinary teams in the past. Highlighting your teamwork skills will show OQC that you’re a great fit for their innovative environment.
✨Tip Number 4
Finally, apply through our website! It’s the best way to ensure your application gets seen. Plus, it shows you’re genuinely interested in joining OQC and being part of their mission to revolutionise quantum computing.
We think you need these skills to ace Layout Engineer in Reading
Some tips for your application 🫡
Tailor Your Application:Make sure to customise your CV and cover letter for the Layout Engineer role. Highlight your experience with EDA tools and any relevant projects that showcase your skills in creating fabrication-ready GDS layouts.
Showcase Collaboration Skills:Since this role involves working closely with various engineering teams, emphasise your collaborative experiences. Share examples of how you've successfully worked across disciplines to achieve project goals.
Detail Your Technical Expertise:Be specific about your technical skills, especially with tools like KLayout or Cadence. Mention any automation projects you've undertaken, as this will show us your ability to streamline processes and improve efficiency.
Apply Through Our Website:We encourage you to apply directly through our website. This ensures your application gets to the right people quickly and helps us keep track of all candidates efficiently. Plus, it’s super easy!
How to prepare for a job interview at Oxford Quantum Circuits
✨Know Your Tools
Familiarise yourself with EDA and mask layout tools like KLayout, L-Edit, or Cadence. Be ready to discuss how you've used these tools in past projects, especially in creating fabrication-ready GDS layouts.
✨Showcase Your Collaboration Skills
Prepare examples of how you've worked with multidisciplinary teams. Highlight specific instances where you translated design concepts into manufacturable layouts, ensuring alignment with engineers from different specialisations.
✨Demonstrate Your Problem-Solving Approach
Be ready to discuss your structured problem-solving methods. Share experiences where you maintained robust methodologies for layout creation, focusing on quality, reliability, and traceability across projects.
✨Emphasise Automation Experience
Talk about any experience you have with automating layout workflows using Python scripting or similar tools. Discuss how this has improved efficiency in your previous roles, particularly in DRC and LVS checks.
