Analog Circuit Design Engineer (Graduate Intern)
Job Details
About the role
The Role and Impact
Are you ready to launch your career in an environment that pushes the boundaries of innovation? As a Circuit Design Engineering Graduate Intern, you will play a pivotal role in shaping Intel's next-generation technologies. This exciting opportunity allows you to contribute to the design, simulation, and verification of digital and/or analog circuits, ensuring robust circuit implementation and integration. You will engage in hands-on projects that align with Intel's mission to develop cutting-edge solutions, while building skills that will shape your future in the semiconductor industry. Join us and make a meaningful impact on the technology that powers the future.
Key Responsibilities
- Aid in designing, simulating, and verifying digital and/or analog circuits to meet Intel's high-performance standards.
- Contribute to schematic entry, timing analysis, and optimization for power, performance, and area.
- Perform noise glitch and signal integrity analysis to ensure robust circuit designs.
- Collaborate with cross-functional teams to identify and implement innovative solutions for low-power and high-performance designs.
- Perform debugging, hardware simulations, and circuit testing to validate design functionality.
- Utilize and navigate EDA tools to execute floor planning and clock gating tasks.
- Apply semiconductor device physics knowledge to analyze and improve circuit tradeoffs.
- Continuously learn, adapt, and contribute to process improvements in alignment with Intel's culture of innovation.
Qualifications
- Minimum Qualifications:
- Must be pursuing a Master’s or a Ph.D. degree in Electrical/Computer/Software Engineering, Computer Science, or related field of study.
- Proficiency in digital and/or analog circuit design principles and fundamentals.
- Hands-on experience or knowledge of EDA tools, including circuit simulation and verification tools.
- Knowledge of CMOS technologies and microarchitecture fundamentals.
- Familiarity with power and performance analysis and optimization techniques.
- Understanding of signal and power integrity concepts.
- Coursework or experience in semiconductor device physics.
- Preferred Qualifications:
- Strong analytical and problem-solving skills with attention to detail.
- Excellent verbal and written communication skills to collaborate effectively within a team.
- A passion for continuous learning and improvement.
- Demonstrated ability to apply disciplined execution and technical rigor to projects.
- Exposure to debugging complex hardware systems.
Benefits
We offer a total compensation package that ranks among the best in the industry. It consists of competitive pay, stock bonuses, and benefit programs which include health, retirement, and vacation.