At a Glance
- Tasks: Lead the development of manufacturing test solutions for next-gen AI accelerator devices.
- Company: Fractile, a pioneering tech company redefining AI with innovative silicon and software.
- Benefits: Competitive salary, growth opportunities, and a chance to work on cutting-edge technology.
- Other info: Collaborative environment with opportunities for career advancement and skill development.
- Why this job: Join a dynamic team and make a real impact in the AI revolution.
- Qualifications: 5+ years in semiconductor test engineering and strong ATE program development skills.
The predicted salary is between 60000 - 80000 £ per year.
Fractile is building silicon, systems and software which will redefine the frontier of AI: running the world's most advanced models at radically higher speed and lower cost. We have an exceptional team across hardware and software capable of bringing about this change, and we are growing fast to meet demand and deliver our product at scale.
We are seeking an experienced Semiconductor Test Engineer to lead the development and deployment of manufacturing test solutions for next-generation AI accelerator devices. This role spans the full silicon lifecycle from first silicon bring-up through high-volume production, with responsibility for defining test strategy, developing ATE test content, debugging complex silicon issues, and optimizing yield, coverage, and test cost. The ideal candidate will bring deep expertise in DFT methodologies, high-speed interface testing, and advanced CMOS manufacturing, and will work closely with design, DFT, packaging, and manufacturing partners to ensure robust, scalable production of high-performance compute silicon.
Key Responsibilities
- Develop and maintain ATE test programs for an AI accelerator chip targeting high-volume manufacturing.
- Implement manufacturing test content for advanced CMOS designs including high-speed logic, SRAM, DRAM, and high speed IO blocks.
- Develop and debug structural and functional test content such as scan/ATPG, LBIST, MBIST, JTAG, and HSIO tests.
- Bring up first silicon on ATE, including pattern debug, tester correlation, shmooing, and corner analysis.
- Support testing of high-speed interfaces such as PCIe Gen6 and multi-GHz LPDDR, including at-speed tests and margining features.
- Execute silicon characterization and failure analysis to identify yield limiters and defect mechanisms.
- Optimize test coverage, test time, and cost while maintaining manufacturing robustness.
- Work with DFT and design teams to improve testability and close coverage gaps.
- Collaborate with OSATs and external partners on test program execution and debug.
- Support advanced packaging test flows, including die-to-die interconnect testing and package-level thermal considerations.
- Contribute to documentation of test programs, debug procedures, and manufacturing release materials.
- Support qualification, reliability testing, and high-volume manufacturing ramp.
Required Qualifications
- 5+ years of hands-on semiconductor test engineering experience.
- Strong experience developing ATE test programs (Advantest 93K, Teradyne, or equivalent).
- Solid understanding of DFT methodologies (scan, ATPG, MBIST, LBIST) and memory test techniques.
- Experience debugging silicon issues at the tester and correlating failures to design or process causes.
- Familiarity with advanced CMOS nodes and production test challenges.
- Ability to work effectively in a cross-functional engineering environment.
Preferred Qualifications
- Experience testing AI accelerators, GPUs, networking ASICs, or other high-performance compute ICs.
- Experience with PCIe Gen5/Gen6, LPDDR4/5/6, or other high-speed interfaces.
- Exposure to advanced packaging, chiplets, or multi-die test flows.
- Experience improving yield, reducing test time, or optimizing cost in high-volume manufacturing.
Export control and security clearance
Certain roles may involve working on technologies subject to export restrictions. Applicants may be required to undergo additional eligibility checks to ensure compliance with applicable law.
Semiconductor Test Engineer Bristol employer: Fractile Ltd
Fractile is an exceptional employer, offering a dynamic work environment in Bristol where innovation meets collaboration. As a Semiconductor Test Engineer, you will be part of a forward-thinking team dedicated to redefining AI technology, with ample opportunities for professional growth and development. The company fosters a culture of excellence and creativity, providing competitive benefits and the chance to work on cutting-edge projects that have a meaningful impact on the future of technology.
StudySmarter Expert Advice🤫
We think this is how you could land Semiconductor Test Engineer Bristol
✨Network Like a Pro
Get out there and connect with folks in the semiconductor industry! Attend meetups, webinars, or even local tech events. You never know who might have the inside scoop on job openings or can put in a good word for you.
✨Show Off Your Skills
When you get the chance to chat with potential employers, make sure to highlight your hands-on experience with ATE test programs and DFT methodologies. Share specific examples of how you've debugged silicon issues or optimised test costs – it’ll make you stand out!
✨Tailor Your Approach
Before any interview, do your homework on the company and their products. Understand their AI accelerator devices and be ready to discuss how your background aligns with their needs. This shows you're genuinely interested and prepared!
✨Apply Through Our Website
Don’t forget to apply directly through our website! It’s the best way to ensure your application gets seen by the right people. Plus, we love seeing candidates who take that extra step to connect with us directly.
We think you need these skills to ace Semiconductor Test Engineer Bristol
Some tips for your application 🫡
Tailor Your CV:Make sure your CV is tailored to the Semiconductor Test Engineer role. Highlight your experience with ATE test programs and DFT methodologies, as these are key for us. Use specific examples that showcase your skills in debugging silicon issues and optimising test coverage.
Craft a Compelling Cover Letter:Your cover letter is your chance to shine! Share your passion for semiconductor testing and how your background aligns with our mission at Fractile. Don’t forget to mention any experience you have with AI accelerators or high-speed interfaces, as this will catch our eye.
Showcase Relevant Projects:If you've worked on projects related to high-performance compute ICs or advanced packaging, make sure to include them. We love seeing real-world applications of your skills, so detail your contributions and the impact they had on the project’s success.
Apply Through Our Website:We encourage you to apply through our website for the best chance of getting noticed. It helps us keep track of applications and ensures you’re considered for the role. Plus, it’s super easy to do!
How to prepare for a job interview at Fractile Ltd
✨Know Your Silicon Inside Out
Make sure you brush up on your knowledge of semiconductor testing, especially DFT methodologies and ATE test programs. Be ready to discuss specific examples from your past experience that demonstrate your expertise in debugging silicon issues and optimising test coverage.
✨Showcase Your Collaboration Skills
This role requires working closely with various teams, so be prepared to share instances where you've successfully collaborated with design, DFT, or manufacturing partners. Highlight how your teamwork has led to improved test strategies or resolved complex issues.
✨Prepare for Technical Questions
Expect technical questions related to high-speed interfaces like PCIe Gen6 and memory test techniques. Brush up on your knowledge of these areas and think about how you can apply your experience to the challenges Fractile is facing in AI accelerator testing.
✨Demonstrate Your Problem-Solving Skills
Be ready to discuss how you've tackled yield limiters or defect mechanisms in previous roles. Use specific examples to illustrate your analytical skills and how you approach problem-solving in a high-volume manufacturing environment.
