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- Tasks: Develop and simulate PCB structures for high-speed interfaces in cutting-edge AI technology.
- Company: Join Graphcore, a leader in AI innovation and part of the SoftBank Group.
- Benefits: Enjoy flexible working, generous leave, private medical insurance, and a vibrant office culture.
- Why this job: Be at the forefront of AI breakthroughs and make a real impact in technology.
- Qualifications: 5+ years in high-speed digital circuit development with expertise in signal integrity.
- Other info: Collaborative team environment with opportunities for continuous learning and growth.
The predicted salary is between 36000 - 60000 £ per year.
Graphcore is one of the world’s leading innovators in Artificial Intelligence compute. It is developing hardware, software and systems infrastructure that will unlock the next generation of AI breakthroughs and power the widespread adoption of AI solutions across every industry. As part of the SoftBank Group, Graphcore is a member of an elite family of companies responsible for some of the world’s most transformative technologies.
As a hardware signal integrity engineer you will develop, extract and simulate PCB structures to ensure that the high speed SERDES (112Gbps) and DDR interfaces perform correctly within the system budget. You will work closely with the PCB and package substrate CAD engineers to design component signal launches from BGA components and connectors, layer transition via structures, and cable interconnect. You will define the low-loss materials to be used for future designs and work closely with Graphcore’s system architecture team and suppliers to ensure the best possible performance is achieved. You will be an expert user of high-speed PCB simulation tools and be familiar with industry best practice in high-speed digital system design.
Graphcore’s Hardware Engineering Team creates both products for sale in volume production and hardware test & validation systems based on Graphcore’s IPU processor. These systems allow Graphcore’s customers to develop leading-edge machine-learning solutions for training and inference.
Responsibilities and Duties:
- Signal and Power Integrity specialist for the development of production systems and test boards for Graphcore’s family of processors.
- Development of printed circuit board structures for high frequency (112Gbps, 16Gbps) SERDES interfaces, DDR interfaces.
- System, PCB and substrate level simulation and analysis of signal and power integrity.
- PCB design requirement and constraint definition, PCB layout supervision.
- Prototype bring-up, evaluation, validation & system test.
Candidate Profile:
- 5+ years’ experience in high-speed digital circuit development, with a deep understanding of signal and power supply integrity.
- Knowledge of high-speed circuit design requirements to ensure signal integrity and robust rejection of interference and crosstalk is essential.
- Experience of high frequency (tens of GHz) SERDES design and validation.
- Experience with ANSYS SIWave, HFSS, and/or Mentor Hyperlynx Signal and Power Integrity tools.
- High speed processor system design with experience in interfaces such as SERDES, PCI, DDR, Ethernet, etc.
- Design of BGA & connector pad launches, via structures and transmission lines for GHz signals.
- This position will require extensive practical work in the lab, bringing up, debugging and validating designs.
- Expertise in the use of vector network analysers, high speed digital oscilloscopes, signal generators.
- A rigorous approach is required to make sure designs will work correctly the first time.
- Independent working and the taking of responsibility, with excellent cooperative and communications skills to work in a small team environment.
- Experience working in a small team, which requires a wide range of skills, an eagerness to participate in all parts of the development cycle from concept to testing in the lab and supporting manufacture and customers.
In addition to a competitive salary, Graphcore offers flexible working, a generous annual leave policy, private medical insurance and health cash plan, a dental plan, pension (matched up to 5%), life assurance and income protection. We have a generous parental leave policy and an employee assistance programme (which includes health, mental wellbeing, and bereavement support). We offer a range of healthy food and snacks at our central Bristol office and have our own barista bar! We welcome people of different backgrounds and experiences; we’re committed to building an inclusive work environment that makes Graphcore a great home for everyone. We offer an equal opportunity process and understand that there are visible and invisible differences in all of us. We can provide a flexible approach to interview and encourage you to chat to us if you require any reasonable adjustments.
Signal and Power Integrity Engineer employer: graphcore
Contact Detail:
graphcore Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Signal and Power Integrity Engineer
✨Tip Number 1
Network like a pro! Reach out to current employees at Graphcore on LinkedIn or other platforms. A friendly chat can give you insider info and might just get your foot in the door.
✨Tip Number 2
Show off your skills! Prepare a portfolio or a presentation that highlights your experience with high-speed digital circuit development and PCB design. This will help you stand out during interviews.
✨Tip Number 3
Practice makes perfect! Get comfortable with common interview questions related to signal integrity and power supply. Mock interviews with friends can help you nail your responses.
✨Tip Number 4
Apply through our website! It’s the best way to ensure your application gets seen by the right people. Plus, it shows you’re genuinely interested in joining the Graphcore team.
We think you need these skills to ace Signal and Power Integrity Engineer
Some tips for your application 🫡
Tailor Your CV: Make sure your CV is tailored to the Signal and Power Integrity Engineer role. Highlight your experience with high-speed digital circuit development and any specific tools you've used, like ANSYS SIWave or Mentor Hyperlynx. We want to see how your skills align with what we're looking for!
Craft a Compelling Cover Letter: Your cover letter is your chance to shine! Use it to explain why you're passionate about AI and how your background makes you a great fit for Graphcore. Don’t forget to mention your experience in PCB design and validation – that’s music to our ears!
Showcase Your Projects: If you've worked on relevant projects, make sure to include them in your application. Whether it's a personal project or something from your previous job, we love seeing practical examples of your work, especially those involving high-frequency SERDES or DDR interfaces.
Apply Through Our Website: We encourage you to apply directly through our website. It’s the best way to ensure your application gets into the right hands. Plus, it shows us you’re serious about joining our team at Graphcore!
How to prepare for a job interview at graphcore
✨Know Your Stuff
Make sure you brush up on high-speed digital circuit development and signal integrity principles. Familiarise yourself with the specific tools mentioned in the job description, like ANSYS SIWave and Mentor Hyperlynx. Being able to discuss your hands-on experience with these tools will show that you're not just a theoretical expert.
✨Showcase Your Projects
Prepare to talk about specific projects where you've developed PCB structures or worked on SERDES interfaces. Highlight any challenges you faced and how you overcame them. This will demonstrate your problem-solving skills and practical experience, which are crucial for this role.
✨Ask Insightful Questions
Come prepared with questions that show your interest in Graphcore's technology and culture. Ask about their approach to continuous learning and innovation, or how they tackle challenges in high-speed design. This not only shows your enthusiasm but also helps you gauge if the company is the right fit for you.
✨Emphasise Teamwork
Since the role involves working closely with CAD engineers and system architecture teams, be ready to discuss your experience in collaborative environments. Share examples of how you've successfully worked in small teams and contributed to all parts of the development cycle, from concept to testing.