Job Overview
Qualcomm is seeking an experienced CPU Clock Physical Design Engineer to join the Nuvia Data Center CPU team in Cambridge, UK. The team develops next‑generation, high‑performance, power‑efficient custom CPU technology for advanced compute and server‑class platforms that will transform the industry. In this role you will define, implement, and optimize best‑in‑class clock generation and distribution solutions for high‑frequency CPU designs, working closely with micro‑architecture, RTL design, CAD, circuit design, block‑level physical design, and top‑level physical design teams.
Key Responsibilities
- Define and drive the overall clock generation and clock distribution methodology for next‑generation data center CPU designs.
- Collaborate with microarchitecture, RTL, CAD, circuit, block‑level physical design, and top‑level physical design teams to understand, implement, and validate CPU clocking requirements.
- Architect, implement, and optimize low‑skew, low‑power clock networks using clock H‑trees, clock mesh, and clock spines methodologies.
- Partner with CAD and physical design teams to develop and deploy clocking techniques that optimize skew, latency, clock power, timing margin, routability, and design convergence.
- Use SPICE simulation and circuit‑level analysis to validate clock circuits, clock paths, and electrical behavior across process, voltage, and temperature conditions.
- Analyze and debug clock‑related timing, power, noise, variation, and physical implementation issues across multiple modes, corners, and operating conditions.
- Provide feedback and guidance to block‑level and top‑level physical design engineers on required clocking fixes, optimization opportunities, and signoff risks.
- Collaborate with PLL, timing, power, CAD, and implementation teams to align clock source assumptions, jitter budgets, clock uncertainty, and signoff methodology.
- Develop, document, and improve clock construction, analysis, and validation flows for future CPU generations.
- For Staff‑level candidates, provide technical leadership, mentor engineers, influence cross‑functional methodology, and drive resolution of critical clocking challenges.
Required Skills and Experience
- Strong experience in the construction and analysis of low‑skew and low‑power clock generation and distribution networks.
- Hands‑on experience with clock distribution structures and methodologies such as Clock H‑tree, Clock Mesh, Clock Spines.
- Deep understanding of CTS, clock balancing, insertion delay, skew optimization, useful skew, clock power reduction, and clock latency tradeoffs.
- Good understanding of device physics, RC delay, signal integrity, variation, and electrical effects that influence clock quality and timing robustness.
- Proficiency in SPICE simulation and analysis for circuit design, clock‑path validation, and electrical verification.
- Strong understanding of static timing analysis and the interaction between clock architecture, timing closure, jitter, uncertainty, OCV/AOCV/POCV, setup/hold closure, and signoff quality.
- Ability to debug complex clocking issues across implementation, timing, power, noise, variation, and circuit domains.
- Experience with industry‑standard EDA implementation and signoff flows for physical design, timing analysis, power analysis, and physical verification.
- Strong communication skills and ability to work effectively with global, cross‑functional engineering teams.
Minimum Qualifications
- Bachelor’s degree in Electrical Engineering, Computer Engineering, Computer Science, or a related technical field with relevant experience in hardware engineering, CPU design, physical design, clock design, or implementation.
- OR Master’s degree in Electrical Engineering, Computer Engineering, Computer Science, or a related technical field with relevant experience in hardware engineering, CPU design, physical design, clock design, or implementation.
- OR PhD in Electrical Engineering, Computer Engineering, Computer Science, or a related technical field with relevant experience in CPU design, physical implementation, clock design, or circuit‑aware methodology.
Preferred Qualifications
- Experience defining or deploying clock methodology across multiple designs, projects, or technology generations.
- Strong background in chip‑level or top‑level physical design, block integration, standard‑cell optimization, and clock construction.
- Experience working in advanced semiconductor process nodes, especially 7nm and below.
- Proficiency with PLL specifications, clock source modeling, skew estimation, jitter budgeting, and jitter measurements. Experience with high‑frequency CPU or high‑performance compute clocking.
- Experience with power‑aware clocking, clock gating, resonant or mesh‑based clocking strategies, and clock power optimization.
- Familiarity with multi‑corner multi‑mode timing closure and variation‑aware implementation methodologies.
- Experience developing automation or analysis flows using TCL, Python, Perl, or similar scripting languages.
- For Staff‑level candidates, demonstrated ability to lead technical initiatives, influence cross‑functional teams, define methodology, and mentor other engineers.
Benefits and Perks
- Competitive compensation package, including base salary, performance‑related bonus, and equity opportunities.
- Employee Stock Purchase Plan and equity programs supporting employee share ownership and long‑term participation in Qualcomm’s success.
- Pension and retirement support, including a matching pension scheme.
- Health and wellbeing benefits, including medical, life, income protection, and wellbeing resources.
- Maternity, paternity, family, and extended leave support to help employees balance professional and personal commitments.
- Education assistance and tuition support to enable continued learning and professional development.
- Relocation and immigration support where applicable, particularly for strong candidates moving to join the Cambridge team.
- Employee assistance and resilience programs supporting mental wellbeing, balance, and personal resilience.
- Opportunities to connect through employee networks, community programs, volunteering, and social groups that support inclusion, collaboration, and community engagement.
- Subsidised wellbeing and lifestyle benefits, which may include gym or fitness support, bicycle purchase schemes, and employee clubs.
- A flexible, collaborative, and technically challenging work environment, with the opportunity to work alongside highly skilled engineers on advanced CPU technology.
Qualcomm is an equal opportunity employer. If you are an individual with a disability and need an accommodation during the application/hiring process, rest assured that Qualcomm is committed to providing an accessible process. You may e‑mail disability‑accomodations@qualcomm.com or call Qualcomm’s toll‑free number. Upon request, Qualcomm will provide reasonable accommodations to support individuals with disabilities to be able participate in the hiring process. Qualcomm is also committed to making our workplace accessible for individuals with disabilities.
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